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Home My WebLink About20200270 Tait Lane Reserve SWPPP � The LA GR�]UP - � ,� � �� s � �>i� �7r-nr�r_� i,_�u�� vv��ti� 1 n��l,��uF� cani Lzndscape Archit�ectureh_En�,lneering f'_C Stormwater Pollution Prevention Plan Prepared in accordance with NYS DEC General Permit GP-0-20-001 for: Tait Lane Reserve Owner/Operator(s): NRP Holdings LLC 1228 Euclid Avenue, Suite 400 Cleveland, Ohio 44115 SWPPP Contact(s): The LA Group, PC 40 Long Alley Saratoga Springs, NY 12866 1-518-587-8100 1-518-587-0180 SWPPP Preparation Date: May 8, 2020 Table of Contents 1.0 PERMIT OVERVIEW AND REQUIREMENTS ..................................................................... 1 1.1 PERMIT OVERVIEW...................................................................................................................... 1 2.0 SWPPP REVIEW, UPDATE....................................................................................................... 2 2.1 SWPPP REVIEW.......................................................................................................................... 2 2.2 SWPPP UPDATE.......................................................................................................................... 2 3.0 SITE ASSESSMENT, EVALUATION AND PLANNING.......................................................3 3.1 PROJECT LOCATION..................................................................................................................... 3 3.2 PRE-DEVELOPMENT CONDITIONS ................................................................................................ 3 3.3 PROJECT TYPE ............................................................................................................................. 3 3.4 PROJECT SCOPE............................................................................................................................ 3 3.5 HISTORIC PRESERVATION DETERMINATION................................................................................. 3 3.6 RECEIVING wATERS .................................................................................................................... 3 3.7 So1Ls ........................................................................................................................................... 4 4.0 EROSION AND SEDIMENT CONTROL.................................................................................4 4.1 EROSION AND SEDIMENT CONTROL PRACTICES........................................................................... 4 4.2 EROSION AND SEDIMENT CONTROL DRAWINGS........................................................................... 4 4.3 CONSTRUCTION PHASING PLAN AND SEQUENCE OF OPERATIONS................................................4 4.4 EROSION AND SEDIMENT CONTROL PRACTICE MAINTENANCE.................................................... 6 4.5 EROSION AND SEDIMENT CONTROL INSPECTION.......................................................................... 6 4.6 CONTRACTOR SEQUENCE FORM .................................................................................................. 7 5.0 POST CONSTRUCTION STORMWATER MANAGEMENT PRACTICES ......................7 S.1 STORMWATER MANAGEMENT CONTROLS ................................................................................... 7 5.2 GREEN INFRASTRUCTURE PRACTICES/RUNOFF REDUCTION TECHNIQUES................................... 7 5.3 POST CONSTRUCTION STORMWATER MANAGEMENT DRAWINGS ................................................ 8 5.4 HYDRAULIC AND HYDROLOGIC ANALYSIS .................................................................................. 9 S.S COMPARISON OF PRE AND POST CONSTRUCTION STORMWATER RUNOFF.................................... 9 6.0 POST CONSTRUCTION STORMWATER MAINTENANCE............................................ 10 6.1 MAINTENANCE TO BE PERFORMED ............................................................................................ 1 O 7.0 CONSTRUCTION WASTE ...................................................................................................... ll 8.0 OFFSITE VEHICLE TRACHING........................................................................................... ll 9.0 TEMPORARY STABILIZATION FOR FROZEN CONDITIONS ..................................... ll 10.0 SPILL PREVENTION PRACTICES....................................................................................... 12 ll.0 CERTIFICATIONS.................................................................................................................... 16 12.0 DEFINITIONS............................................................................................................................ 21 Appendices A Notice of Intent (NOI) and MS4 Acceptance Form B Stormwater Management Report and Hydro CAD C Map Set — Location Map and Construction Drawing D SWPPP Inspection Forms —SWPPP Inspection Report E Other SWPPP Forms — Construction Sequence, SWPPP Plan Changes, Spill Response Form, Stormwater Management Practice Maintenance Log F SPDES General Permit GP-0-20-001 G Historic Preservation/Endangered Species Documentation H Deep Ripping and De-compaction (DEC, 2008) I Stormwater Maintenance Agreement Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 1 .0 PERMIT OVERVIEW AND REQUIREMENTS 1.1 Permit Overview This Stormwater Pollution Prevention Plan (SWPPP) is prepared to inform the landowner and construction personnel of the measures to be implemented for controlling runoff and pollutants from the site during and after construction activities. The objective of this plan is to comply with the New York Department of Environmental Conservation (NYSDEC) State Pollutant Discharge Elimination System (SPDES) General Permit for Stormwater Discharges from Construction Activities, Permit No. GP- 0-20-001 requirements. Any material conflicts between this plan and the site plans, specification or instructions, must be brought to the attention of the design professional. The project may have other permits and it is the responsibility of the owner and contractor to know and understand all permits. The operator will be issued a bill from New York State for a one hundred and ten dollar ($110.00) annual fee for the open GP-0-20-001 permit. The operator will also be billed by New York State for a one time one hundred and ten dollar ($110.00) per acre fee for the proposed disturbed soil area listed in the NOI, and finally a one time six hundred and seventy five ($675.00) per acre fee for the proposed increased impervious area listed in the NOI. The operator is responsible to maintain onsite in a secure location that is accessible during normal working hours to an individual performing a compliance inspection, the following information: ✓ the Notice of Intent (NOI), ✓ the NYS Department of Environmental Conservation NOI Acknowledgement Letter, ✓ the SWPPP, ✓ a copy of the General Permit (included in the SWPPP), ✓ MS4 SWPPP Acceptance Form (where applicable), and ✓ All inspection reports. All post-construction stormwater management facilities must be inspected annually by a qualified professional, a report prepared and submitted to the City Engineer documenting the inspections as well as the maintenance activities that were completed during the prior year. Technical standards are detailed in the "New York State Standards and Specifications for Sediment and Erosion and Sediment Control (November 2016)", as well as illustrated on the Construction Drawings included in Appendix C. The design of post- construction stormwater control practices follow the guidance provided by "New York State Stormwater Management Design Manual." � The �P+ �I�DUP Page 1 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 2.0 SWPPP REVIEW, UPDATE 2.1 SWPPP Review Applicable Federal, State, and local regulatory agencies that have jurisdiction may elect to review this SWPPP and notify the permittee in writing that the SWPPP does not meet the requirements of their regulations. If the SWPPP needs to be revised, the permittee and the site contractor will make the required modifications within seven days of such notification and submit written certification to the notifying agency that the changes have been implemented. A copy of the SWPPP will be kept available on site for review by regulatory agencies, engineers, and subcontractors. This Project is in the City of Saratoga Springs which is a regulated MS4 Community, so a copy of this SWPPP was sent to the City for review. A copy of the signed MS4 Acceptance form is provided in Appendix A of this SWPPP. 2.2 SWPPP Update The permittee identified in this SWPPP shall amend the SWPPP under the following conditions: ✓ Whenever the current provisions prove to be ineffective in minimizing pollutants in stormwater discharge from the site ✓ Whenever there is a change in design, construction or operation that could have an effect on the discharge of pollutants ✓ To address issues or deficiencies identified during an inspection by the qualified inspector, the Department or other regulatory authority ✓ To identify a new subcontractor that will implement any part of the SWPPP. If modifications are required to the post-stormwater management practices and the Project is within a regulated, traditional land use control MS4, the owner or operator of the Project must notify the MS4 in writing of any planned amendments or modifications to the post-construction stormwater management practice component of the SWPPP. Unless otherwise notified by the MS4, the owner or operator shall have the SWPPP amendments or modifications reviewed and accepted by the MS4 prior to commencing construction of the post-construction stormwater management practice. The SWPPP PLAN CHANGES, AUTHORIZATION, AND CHANGE CERTIFICATION form (Appendix E) must be filled out and a copy retained onsite during construction. If modifications are required to the post-stormwater management practices and the Project is not within a Regulated, Traditional Land Use Control MS4, the changes shall be documented in the SWPPP kept onsite. � The �P+ �I�DUP Page 2 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 3.0 SITE ASSESSMENT, EVALUATION AND PLANNING 3.1 Project Location The Project is located on Tait Lane and Allen Drive, approximately 500 feet south of the intersection Church street and Allen Drive, City of Saratoga Springs, Saratoga County, NY 12866. Access to the site is off of Allen Drive and Tait Lane. See Appendix C for a general site location map. 3.2 Pre-Development Conditions Currently, the site is bound to the east by railroad tracks, which service the train station located on Station Lane. The site is bound to the south by an industrial park on Storage Lane, the north by Tait Lane and to the west by existing residential properties. The existing cover present in the proposed area of disturbance is a mix of grass and wooded area. 3.3 Project Type This project is a new development project and has been designed in accordance with Chapter 4 of the NYSDEC Stormwater Management Design Manual and NYSDEC's General Permit (GP-0-20-001) for construction activities. 3.4 Project Scope The Project includes the construction of twelve (12) apartment buildings. The remainder of the proposed site improvements includes construction of a parking lot, site lighting, landscaping, stormwater controls, and connections to the municipal water and sewer. The Project Site represents the area that will be disturbed as a result of the Project. 3.5 Historic Preservation Determination/Endangered Species The project area is within an area that is shown on the OPRHP website that might possibly contain archeologically sensitive resources and therefore a phase 1 archeological study was completed. The results of the study did not identify the presence of archeological sites and that no additional investigation was recommended. The Archeological study can be found in Appendix G. The Project will have no impact on any listed, proposed to be listed, threatened or endangered species, or a critical habitat. The NYSDEC no effect letter is provided in Appendix G. 3.6 Receiving Waters The Site drains to multiple low lying areas onsite and offsite � The �P+ �I�DUP Page 3 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 3.7 Soils According to the Natural Resources Conservation Service (NRCS) Web Soil Survey, the area including and surrounding the Project Site is comprised of Oakville loamy fine sand and Deerfield loamy fine sand. The hydrological soil group classifications are `A'. Test pits and falling head permeability tests were completed by Terracon Engineering in December 2018. Additional borings and infiltration testing were completed in January 2020. Results of the tests are provided in Attachment A of the Stormwater Management Report (Appendix B). 4.0 EROSION AND SEDIMENT CONTROL 4.1 Erosion and Sediment Control Practices Temporary Structural Practices ✓ Silt Fence ✓ Dust Control ✓ Stabilized Construction Entrance Permanent Structural Controls ✓ Grading ✓ Rock Outlet Protection Temporary Stabilization Practices (including vegetative practices) ✓ Seed and mulch bare soil areas within 14 days of disturbance. Permanent Stabilization Practices (including vegetative practices) ✓ Seed and mulch all disturbed areas. Slopes that are 3:1 or steeper should receive a Rolled Erosion Control Product (RECP), sodding, and or hydro- seeding a homogenous mixture of wood fiber mulch with tackifying agent. Refer to Construction Drawings attached in Appendix C for detailed information on each practice. 4.2 Erosion and Sediment Control Drawings Erosion and Sediment Control practices are shown on Construction Drawings included in Appendix C. 4.3 Construction Phasing Plan and Sequence of Operations The project will be phased to disturb less than five acres at a single time. � The �P+ �I�DUP Page 4 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 ✓ Temporary structural erosion controls will be installed prior to earthwork as per the attached plans. ✓ Areas to be undisturbed for more than 14 days will be temporarily stabilized by seeding. ✓ Disturbed areas will be reseeded and mulched immediately after final contours are re-established and no more than 14 days after the completion of construction at that site. ✓ Temporary erosion control devices will not be removed until the area served is stabilized by the growth of vegetation and the area is certified as being stabilized by the Erosion Control Superintendent. Reference Construction Activities Sheet Start � Stop Number Sequence must include major items such as, but not limited to, clearing and grubbing, excavation and grading, utility and infrastructure installation and any other activity resulting in soil disturbance. Include installation of erosion and sediment control ractices and timin of installation. Install silt fence and construction entrance Week 1 Clear site and rough grade Weeks 2-5 Begin utility installation Weeks 5-12 Begin building construction Weeks 9- completion Begin parking lot construction Weeks 12-20 Monitor/maintain erosion and sediment control measures Ongoing Remove erosion and sediment control measures upon Ongoing stabilization of contributing areas � The �P+ �I�DUP Page 5 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 4.4 Erosion and Sediment Control Practice Maintenance ✓ Silt fence — maintenance shall be performed as needed and material removed when "bulges" develop in the silt fence. ✓ Stabilized construction entrance — entrance shall be maintained in a condition which shall prevent tracking. This may require periodic top dressing with additional aggregate. All sediment tracked onto or spilled on public rights of way shall be removed immediately. When necessary, wheels must be cleaned to remove sediment prior to entrance on public rights of way. When washing is required, it shall be done in an area stabilized with aggregate and wash water shall be directed away from streams or wetlands preferably to a broad grassed area or a stormwater pond. ✓ Replace top-soil, mulch and seed where seeding has been disturbed. 4.5 Erosion and Sediment Control Inspection ■ It is recommended that a rain gage be installed at the site. ■ A qualified inspector shall conduct an assessment of the site prior to the commencement of construction and certify in an inspection report that the appropriate erosion and sediment controls described in the SWPPP and required by GP-0-20-001 have been adequately installed to ensure overall preparedness of the site for commencement of construction. ■ This qualified inspector must be a Licensed Professional Engineer, Certified Professional in Erosion and Sediment Control (CPESC), Registered Landscape Architect, or someone working under the direct supervision of, and at the same company as, the licensed Professional Engineer or Registered Landscape Architect, provided they have received 4 hours of Department endorsed training in proper erosion and sediment control principles from a Soil and Water Conservation District, or other Department endorsed entity. After receiving the initial training, the qualified inspector shall receive 4 hours of training every 3 years. ■ The day-to-day erosion control activities on the site will be monitored by the construction manager. The qualified inspector (as defined by the NYS DEC SPDES regulations) and his crews will make at least one inspection every seven (7) days of erosion control devices, and non-stabilized areas during construction. A maintenance inspection report will be completed by the qualified inspector after each inspection. The report form to be completed by the inspector is attached in Appendix D. Reports should be compiled and maintained on-site in the SWPPP 3-ring binder. ■ All measures will be maintained in good working order; if repair is necessary, it will be initiated within 24 hours of report. The qualified inspector shall take photographs of any needed repairs and also � The �P+ �I�DUP Page 6 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 photograph when the repairs are completed. These photographs will be time and date stamped and attached to the weekly inspection report. ■ Seeded and planted areas will be inspected for bare spots, washouts, and healthy growth. If necessary, spot reseeding or sodding will be implemented. ■ A trained contractor will be an employee from the contracting company responsible for the implementation of the SWPPP. This person will be onsite when any soil disturbing activities are being conducted. The trained contractor must have received 4 hours of Department endorsed training in proper erosion and sediment control principles from a Soil and Water Conservation District, or other Department endorsed entity. After receiving the initial training, the qualified inspector shall receive 4 hours of training every 3 years. This trained contractor cannot conduct the regular SWPPP compliance inspections unless they meet the qualified inspector qualifications. 4.6 Contractor Sequence Form The operator shall prepare a summary of construction status using the Construction Sequence Form (included in Appendix E) once every month. Significant deviations to the sequence and reasons for those deviations (i.e. weather, subcontractor availability, etc.), shall be noted by the contractor. The schedule shall be used to record the dates for initiation of construction, implementation of erosion control measures, stabilization, etc. A copy of this table will be maintained at the construction site and updated. 5.0 POST CONSTRUCTION STORMWATER MANAGEMENT PRACTICES 5.1 Stormwater Management Controls The proposed Post Construction Stormwater Management controls on this project are listed below: ✓ Porous Pavement ✓ Wet Pond 5.2 Green Infrastructure Practices/Runoff Reduction Techniques The proposed Green Infrastructure practices or Standard Management practices with Runoff Reduction capabilities on this project are listed below: ✓ Porous Pavement The provided runoff reduction volume is 0.402 ac-ft, which is greater than the required minimum runoff reduction volume of 0.120 ac-ft. �� The �P+ �I�DUP Page 7 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 Soil Restoration Excessively compacted areas and areas of cut and fill on the Project Site will have soil restoration applied as needed and as specified in the table below. Attached in Appendix H is "Deep Ripping and De-compaction, (DEC 2008)." This methodology should be followed for soil restoration as specified in the table below: Type ofSoil Disturbance Soil Restoration Requirement Comments/Examples Minimal Soil Disturbance Restoration not permitted Preservation of Natural Features Areas where topsoil is stripped Restoration not required Clearing and Grubbing only-no change in grade HSG A& B HSG C& D Areas of cut and fill apply 6 inches of Aerate* and apply topsoil 6 inches of topsoil Heavy traffic areas onsite HSG A& B HSG C& D (especially in a zone 5-25 feet around buildings,but not within a Aerate and apply 6 Apply full Soil 5 foot perimeter around mches of topsoil Restoration** foundation walls) Keep construction equipment from Areas where Runoff Reduction Restoration not required,but may be crossing these areas. To protect and/ar infiltrationpractices are applied to enhance the reduction newly installedpractice from any applied specified for appropriate practices ongoing construction activities construct a single phase operation fence area. *Aeration includes the use of machines such as tractor-drawn implements with coulters making a narrow slit in the soil,a roller with many spikes making indentations in the soil,or prongs which function hlce a mini-subsoiler **Per "Deep Ripping and Decopmpaction,DEC 2008" • If compost amendment is required, 2 to 4 inches of screened compost will be incorporated into the soil. • Prior to application of the deep-ripping and de-compaction, the depth to bedrock or naturally occurring hardpan should be known so that the depth of tillage be adjusted according to those restrictive depths. • Soils with a slope that exceeds 10% will not have full soil restoration with deep-ripping and de-compaction due to potential for erosion from tilled soil. • Any soil tillage (deep or shallow) will not be done on soils that are excessively wet, as this will damage the soil. • Any tillage will not be done within approximately 10' of the drip-line of any existing established trees. • Any large stones that are unearthed during tillage should be removed from the surface prior to final surface preparation and vegetation establishment. 5.3 Post Construction Stormwater Management Drawings � The �P+ �I�DUP Page 8 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 Post construction stormwater management controls are shown on Construction Drawings included in Appendix C. 5.4 Hydraulic and Hydrologic Analysis The program utilized for quantifying stormwater runoff rates and volumes was HydroCAD software, produced by Applied Microcomputer Systems of Chocorua, NH. The SCS 24-hour Type I I design storms for 1, 10, and 100-year frequency rainfall were analyzed. ✓ Hydrologic/hydraulic analysis for all structural components of the stormwater control system for the applicable design storms (see Appendix B). ✓ Comparison of post-development stormwater runoff conditions with pre- development conditions (see Appendix B). ✓ Dimensions, material specifications and installation details for each post- construction stormwater control practice (see Appendix B and C). 5.5 Comparison of Pre and Post Construction Stormwater Runoff Stormwater Quantity. These calculations are based on the HydroCAD analysis. Pre Develo ment Post Develo ment 10 ear, 24 hour storm Q 0.03 CFS 0.00 CFS 100 ear, 24 hour storm Qf 1.36 CFS 0.60 CFS Water Quality Volume Calculations The following was utilized to determine water quality volume: WQv= (P) (Rv)(A) 12 Where: WQv= Water Quality Volume (acre/feet) P = 90% Rainfall Event Rv = 0.05 + 0.009(I) where I is impervious cover in percent A = Subcatchment area in acres Re uired Provided Water Quality Volume (WQv) 0.603 AC FT 0.636 AC FT � The �P+ �I�DUP Page 9 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 6.0 POST CONSTRUCTION STORMWATER MAINTENANCE 6.1 Maintenance to be Performed NRP Holdings LLC. will be responsible for the continuous upkeep and maintenance of all post construction stormwater management facilities. Post-construction maintenance for this project will consist of regular inspections of permanent stormwater management facilities and steep slopes. These maintenance procedures are essential to assure continual performance of the stormwater management practices on your site. During the inspection and any maintenance activity to the stormwater management practices, the responsible party should fill out an inspection and maintenance log (Appendix E) to record that it was done. Annual inspections of the post construction stormwater management practices shall be completed and inspection reports shall be sent to the office of the City Engineer for their records. The City of Saratoga Springs shall approve a formal maintenance and inspection agreement in accordance with City Code Chapter 242 for stormwater management facilities to ensure the practices will be properly operated and maintained in accordance with the long term operation and maintenance plans. This agreement shall be binding on all subsequent land owners and recorded in the office of the County Clerk as a deed restriction on the property. Wet Pond ■ Should be inspected twice a year and after heavy rain storms. ■ Any erosion or scour occurring in the pond, forebay or outlets shall be repaired and revegetated as needed. ■ Sediment removal in the forebay shall occur every five to six years or when 50% full. ■ Regular litter control to be performed as needed. ■ Mow grass when it reaches 4-6 inches in height as needed Porous Pavement/Pavers • During the winter, the spreading of sand or other particles for traction cannot be done. If the area is to be plowed of snow, this should be done carefully so as not to upset the permeable pavement. • Areas that receive high volumes of sediment will require frequent maintenance activities, and areas that experience high volumes of vehicular traffic will clog more readily due to soil compaction. Typical maintenance activities for permeable paving are summarized in the table below: Typical Maintenance Activities Associated with Permeable Pavers Activit Schedule �'t The �P+ �I�DUP Page 10 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 Ensure avin area is free of debris Monthl Ensure paving dewaters between storms Monthly and after storms >0.5" Ensure area is clean of sediments Monthl Mow upland and adjacent areas and seed As needed bare areas Vacuum sweep frequently to keep surface Typically 3 to 4 times a year free of sediments Inspect the surface for deterioration or Annually s allin ■ Generally, routine vacuum sweeping and high-pressure washing (with proper disposal of removed material and wash water) can maintain infiltration rates when clogged or crusted material is removed. Signs can also be posted visibly within a permeable paving area to prevent such activities as resurfacing, the use of abrasives, and to restrict truck parking. 7.0 CONSTRUCTION WASTE Waste Materials: All waste materials generated during construction will be disposed at a suitable landfill, or transfer station. Hazardous Waste: The project will not be a generator of hazardous waste and it is not anticipated that any hazardous waste will be generated during construction. If there are any materials generated, a licensed hazardous waste carrier will be contracted to dispose the hazardous material at a suitable disposal site. If hazardous materials are discovered during construction, the work will be stopped until the issue is resolved. Waste: Portable sanitary facilities will be made available to construction personnel and will be serviced regularly. 8.0 OFFSITE VEHICLE TRACKING Excavation equipment involved with the construction will remain on the project site and will not regularly egress or ingress the site. Any trucks used to bring in materials or remove materials via municipal paved roads will do so over a stabilized construction entrance. If any off-site vehicle tracking occurs, the contractor will be directed to initiate, street sweeping program in the immediate vicinity of the site. 9.0 TEMPORARY STABILIZATION FOR FROZEN CONDITIONS The following temporary stabilization measures MUST be performed when construction is occurring during winter/frozen ground conditions. The following requirements do not supersede any other requirements of this SWPPP as they apply to non-frozen ground conditions. � The �P+ �I�DUP Page 11 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 ■ Perimeter erosion control MUST still be installed prior to earthwork disturbance as per this SWPPP. ■ Any areas that cannot be seeded to turf by October 1 or earlier will receive a temporary seeding. The temporary seeding will consist of winter rye seeded at the rate of 120 pounds per acre (2.5 pounds per 1,000 square feet) or stabilized as per the temporary stabilization for winter construction/frozen conditions. ■ Any area of disturbance that will remain inactive for a period of 14 consecutive days MUST be mulched. This includes any previously disturbed areas that are covered with snow. ■ Mulch MUST consist of loose straw applied at the rate of 2 to 3 bales (90 to 100 pounds) per thousand square feet. ■ Mulch MUST be applied uniformly over the area of bare soil or bare soil that is covered with snow. For the latter condition, mulch MUST be applied on top of snow. ■ Using a tracked vehicle, mulch MUST be crimped into the bare soil/snow. The tracked vehicle MUST be driven across the mulched areas in at least two directions to maximize crimping of mulch into the soil/snow. ■ If mulch gets blown off an area to a significant degree, the site inspector WILL require that an area be re-mulched in accordance with Items 2 through 5 above, and this area WILL be included on the inspection checklist for the next inspection. ■ If a particular area repeatedly experiences loss of mulch due to wind, then the inspector WILL require that an alternative method be used to secure the mulch in place. Such alternatives may include the use of netting, tackifier or other methods deemed appropriate by the inspector. ■ During periods when snow is melting and/or surface soils are thawing during daytime hours, mulched areas MUST be re-tracked (crimped) as per Item 5 above at least once every seven days, more frequently if directed by the inspector. Additional mulch may be required to obtain complete coverage of an area. Biodegradable erosion control matting may be required on steeper slopes. ■ Additional stabilization measures for non-frozen ground conditions described in this SWPPP WILL be implemented at the time deemed appropriate by the inspector. During the winter season, if a site has been stabilized and soil disturbing activities have been suspended for the winter, weekly inspections can be suspended. However, monthly inspections must still be conducted. All normal weekly inspections must resume when soil disturbing activities resume. 10.0 SPILL PREVENTION PRACTICES Good Housekeeping and Material Management Practices � The �P+ �I�DUP Page 12 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 The following good housekeeping and material management practices will be followed on site during the construction project to reduce the risk of spills or other accidental exposure of materials and substances to stormwater runoff. ■ Materials will be brought on site in the minimum quantities required. ■ All materials stored on site will be stored in a neat, orderly manner in their appropriate containers, and if possible, under a roof or other enclosure. ■ Products will be kept in their original containers with the original manufacturer's label. ■ Substances will not be mixed with one another unless recommended by the manufacturer. ■ Whenever possible, all of a product will be used up before disposal. ■ Manufacturer's recommendations for proper use and disposal will be followed. ■ The construction manager or his designee will inspect regularly to ensure proper use and disposal of materials on site. ■ The contractor shall prohibit washing of tools, equipment, and machinery in or within 100 feet of any watercourse or wetland. ■ All above grade storage tanks are to be protected from vehicle damage by temporary barriers. Inventory for Pollution Prevention Plan The materials and substances listed below are expected to be on-site during construction. ■ Petroleum for fueling vehicles will be stored in above ground storage tanks. Tanks will either be steel with an enclosure capable of holding 110% of the storage tank volume or of a Con-Store, concrete encased type typically employed by NYSDOT. Hydraulic oil and other oils will be stored in their original containers. Concrete and asphalt will be stored in the original delivery trucks. ■ Fertilizer may be stored on site in its original container for a short period of time prior to seeding. Original containers will be safely piled on pallets or similar devices to protect from moisture. ■ Paints and other similar materials will be stored in their original containers and all empty containers will be disposed of in accordance with label directions. ■ Portable sanitary facilities, which contain chemical disinfectants (deodorants) will be located on-site, with the disinfectants held in the tank of the toilet. Hazardous Products These practices are used to reduce the risks associated with hazardous materials. � The �P+ �I�DUP Page 13 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 ■ Products will be kept in original containers unless they are not re- sealable. ■ Original labels and material safety data sheets will be retained; they contain important product information. ■ If surplus product must be disposed of, manufacturers' or local and State recommended methods for proper disposal will be followed. Spill Prevention The following product specific practices will be followed on site. Petroleum Products: ■ Construction personnel should be made aware that emergency telephone numbers are located in this SWPPP. ■ The contractor shall immediately contact NYSDEC in the event of a spill, and shall take all appropriate steps to contain the spill, including construction of a dike around the spill and placing absorbent material over this spill. ■ The contractor shall instruct personnel that spillage of fuels, oils, and similar chemicals must be avoided and will have arranged with a qualified spill remediation company to serve the site. ■ Fuels, oils, and chemicals will be stored in appropriate and tightly capped containers. Containers shall not be disposed of on the project site. ■ Fuels, oils, chemicals, material, equipment, and sanitary facilities will be stored/located away from trees and at least 100 feet from streams, wells, wet areas, and other environmentally sensitive sites. ■ Dispose of chemical containers and surplus chemicals off the project site in accordance with label directions. ■ Use tight connections and hoses with appropriate nozzles in all operations involving fuels, lubricating materials or chemicals. ■ Use funnels when pouring fuels, lubricating materials or chemicals. ■ Refueling and cleaning of construction equipment will take place in parking areas to provide rapid response to emergency situations. ■ All on-site vehicles will be monitored for leaks and receive regular preventative maintenance to reduce the chance of leakage. Any vehicle leaking fuel or hydraulic fuel will be immediately scheduled for repairs and use will be discontinued until repairs are made. Fertilizers: ■ Fertilizer will be stored in its original containers on pallets with water resistant coverings. ■ Proper delivery scheduling will minimize storage time. ■ Any damaged containers will be repaired immediately upon discovery and any released fertilizer recovered to the fullest extent practicable. � The �P+ �I�DUP Page 14 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 Paints: ■ All containers will be tightly sealed and stored when not required for use. ■ Excess paint will not be discharged to the storm water system or wastewater system, but will be properly disposed of according to manufacturers' instructions or State and local regulations. Concrete Trucks: ■ Concrete trucks will be allowed to wash out or discharge surplus concrete or drum wash water only at designated locations on site. Asphalt Trucks: ■ Asphalt trucks shall not discharge surplus asphalt on the site. Spill Control Practices In addition to the good housekeeping and material management practices discussed in the previous sections of this plan, the following practices will be followed for spill prevention and cleanup. The construction manager or site superintendent responsible for the day-to-day site operations will be the spill prevention and cleanup coordinator. He will designate at least three other site personnel who will receive spill prevention and cleanup training. These individuals will each become responsible for a particular phase of prevention and cleanup. The names of responsible spill personnel will be posted in the material storage area and in the onsite construction office or trailer. ■ Manufacturers' recommended methods for spill cleanup will be clearly posted and site personnel will be made aware of the procedures and the location of the information and cleanup supplies. Any spill in excess or suspected to be in excess of two gallons will be reported to the NYSDEC Regional Spill Response Unit. Notification to the NYSDEC (1-800-457-7362) must be completed within two hours of the discovery of the spill. ■ Materials and equipment necessary for spill cleanup will be kept in the material storage area onsite. Equipment and materials will include but not be limited to absorbent pads, brooms, dust pans, mops, rags, gloves, goggles, activated clay, sand, sawdust, and plastic and metal trash containers specifically for this purpose. ■ All spills will be cleaned up immediately after discovery. ■ The spill area will be kept well ventilated and personnel will wear appropriate protective clothing to prevent injury from contact with spilled substance. ■ Spills of toxic or hazardous material will be reported to the appropriate State or local government agency, regardless of the size � The �P+ �I�DUP Page 15 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 11 .0 CERTIFICATIONS Preparer Certification of Compliance with Federal, State, and Local Regulations This Stormwater Pollution Prevention Plan was prepared in accordance with the New York State Department of Environmental Conservation SPDES General Permit for Stormwater Discharges from Construction Activities (Permit No. GP-0-20-001), pursuant to Article 17, Titles 7, 8 and Article 70 of the Environmental Conservation Law. This SPDES General Permit implements the Federal Clean Water Act pertaining to stormwater discharges. Name: Brett Strom Title: Civil Engineer Signature: Date: Company Name: The LA Group, PC Owner Pollution Prevention Plan Certification 1 certify under penalty of law that this document and all attachments were prepared under my direction or supervision to assure that qualified personnel properly gathered and evaluated the information submitted. Based on my inquiry of the person or persons who are directly responsible for gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate, and complete. 1 am aware that false statements made herein are punishable as a Class A misdemeanor pursuant to Section 210.45 of the Penal Law. 1 understand that GP-0-20-001 requires site inspections be conducted by a qualified professional once every seven (7) days and when approved in writing by the NYSDEC, disturbances of greater than five (5) acres at one time require site inspections two (2) times every seven (7) days. These inspections shall be performed by a qualified professional as defined by the General Permit. The Owner/Operator will be held financially responsible for any and all fines related to work tasks that are not specified by the Contractor(s)/Subcontractor(s) below. Name: Donald Fix Title: Signature: Date: Company Name: � The �P+ �I�DUP Page 16 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 Contractor and Subcontractor Certification 1 hereby certify that 1 understand and agree to comply with the terms and conditions of the SWPPP and agree to implement any corrective actions identified by the qualified inspector during a site inspection. 1 also understand that the owner or operator must comply with the terms and conditions of the New York State Pollutant Discharge Elimination System ("SPDES") general permit for stormwater discharges from construction activities and that it is unlawful for any person to cause or contribute to a violation of water quality standards. Furthermore, I understand that certifying false, incorrect or inaccurate information is a violation of the referenced permit and the laws of the State of New York and could subject me to criminal, civil and/or administrative proceeding. Name Title Signature Date Company Name Address City, State, Zip Phone Number 1. 2. SWPPP Components You 3. Are Responsible For 4. 5. 6. Name of Trained Individual Responsible for SWPPP Implementation Title Signature of Trained Individual Responsible for SWPPP Implementation Date � The �P+ �I�DUP Page 17 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 Contractor and Subcontractor Certification 1 hereby certify that 1 understand and agree to comply with the terms and conditions of the SWPPP and agree to implement any corrective actions identified by the qualified inspector during a site inspection. 1 also understand that the owner or operator must comply with the terms and conditions of the New York State Pollutant Discharge Elimination System ("SPDES") general permit for stormwater discharges from construction activities and that it is unlawful for any person to cause or contribute to a violation of water quality standards. Furthermore, 1 understand that certifying false, incorrect or inaccurate information is a violation of the referenced permit and the laws of the State of New York and could subject me to criminal, civil and/or administrative proceeding. Name Title Signature Date Company Name Address City, State, Zip Phone Number 1. 2. SWPPP Components You 3. Are Responsible For 4. 5. 6. Name of Trained Individual Responsible for SWPPP Implementation Title Signature of Trained Individual Responsible for SWPPP Implementation Date � The �P+ �I�DUP Page 18 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 Contractor and Subcontractor Certification 1 hereby certify that 1 understand and agree to comply with the terms and conditions of the SWPPP and agree to implement any corrective actions identified by the qualified inspector during a site inspection. 1 also understand that the owner or operator must comply with the terms and conditions of the New York State Pollutant Discharge Elimination System ("SPDES") general permit for stormwater discharges from construction activities and that it is unlawful for any person to cause or contribute to a violation of water quality standards. Furthermore, 1 understand that certifying false, incorrect or inaccurate information is a violation of the referenced permit and the laws of the State of New York and could subject me to criminal, civil and/or administrative proceeding. Name Title Signature Date Company Name Address City, State, Zip Phone Number 1. 2. SWPPP Components You 3. Are Responsible For 4. 5. 6. Name of Trained Individual Responsible for SWPPP Implementation Title Signature of Trained Individual Responsible for SWPPP Implementation Date � The �P+ �I�DUP Page 19 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 Contractor and Subcontractor Certification 1 hereby certify that 1 understand and agree to comply with the terms and conditions of the SWPPP and agree to implement any corrective actions identified by the qualified inspector during a site inspection. 1 also understand that the owner or operator must comply with the terms and conditions of the New York State Pollutant Discharge Elimination System ("SPDES") general permit for stormwater discharges from construction activities and that it is unlawful for any person to cause or contribute to a violation of water quality standards. Furthermore, I understand that certifying false, incorrect or inaccurate information is a violation of the referenced permit and the laws of the State of New York and could subject me to criminal, civil and/or administrative proceeding. Name Title Signature Date Company Name Address City, State, Zip Phone Number 1. 2. SWPPP Components You 3. Are Responsible For 4. 5. 6. Name of Trained Individual Responsible for SWPPP Implementation Title Signature of Trained Individual Responsible for SWPPP Implementation Date � The �P+ �I�DUP Page 20 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 12.0 DEFINITIONS Construction Activity(ies) - means any clearing, grading, excavation, filling, demolition, or stockpiling activities that result in soil disturbance. Clearing activities can include, but are not limited to, logging equipment operation, the cutting and skidding of trees, tree removal, stump removal and/or brush removal. Construction activity does not include routine maintenance that is performed to maintain the original line and grade, hydraulic capacity, or original purpose of a facility. Construction Phasing Plan - a plan designed to construct particular portions of an individual project at different times. Phasing is often used when a project is very large to limit the disturbance at a single time to 5 acres per phase. Erosion and Sediment Control Practices —temporary measures installed prior to construction and maintained during construction to temporarily treat any stormwater runoff. Once construction is completed and post-construction stormwater management practices are installed and the site is stabilized, the erosion and sediment control practices are removed from the site. Final Stabilization - means that all soil disturbance activities have ceased and a uniform, perennial vegetative cover with a density of eighty (80) percent over the entire pervious surface has been established; or other equivalent stabilization measures, such as permanent landscape mulches, rock rip-rap or washed/crushed stone have been applied on all disturbed areas that are not covered by permanent structures, concrete pavement. Green Infrastructure — in the context of stormwater management, the term green infrastructure includes a wide array of practices at multiple scales to manage and treat stormwater, maintain and restore natural hydrology and ecological function by infiltration, evapotranspiration, capture and reuse of stormwater, and establishment of natural vegetative features. On a regional scale, green infrastructure is the preservation and restoration of natural landscape features, such as forests, floodplains and wetlands, coupled with policies such as infill and redevelopment that reduce overall imperviousness in a watershed or ecoregion. On the local scale green infrastructure consist of site and neighborhood specific practices and runoff reduction techniques. Such practices essentially result in runoff reduction and or establishment of habitat areas with significant utilization of soils, vegetation, and engineered media rather than traditional hardscape collection, conveyance and storage structures. Some examples include green roofs, trees and tree boxes, pervious pavement, rain gardens, vegetated swales, planters, reforestation and protection and enhancement of riparian buffers and floodplains. Impervious Area (Cover) - means all impermeable surfaces that cannot effectively infiltrate rainfall. This includes paved, concrete and gravel surfaces (i.e. parking lots, driveways, roads, runways, and sidewalks); building rooftops, and miscellaneous impermeable structures such as patios, pools, and sheds. � The �P+ �I�DUP Page 21 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 Municipal Separate Storm Sewer (MS4) — a conveyance or system of conveyances (including roads with drainage systems, municipal streets, catch basins, curbs, gutters, ditches, man-made channels, or storm drains): i. Owned or operated by a state, city, town, borough, county, parish, district, association, or other public body (created by or pursuant to State law) having jurisdiction over disposal of sewage, industrial wastes, stormwater, or other wastes, including special districts under State law such as a sewer district, flood control district or drainage district, or similar entity, or an Indian tribe or an authorized Indian tribal organization, or a designated and approved management agency under section 208 of the CWA that discharges to surface waters of the State. ii. Designed or used for collecting or conveying stormwater iii. Which is not a combined sewer iv. Which is not part of a Publicly Owned Treatment Works (POTW) as defined at 40 CFR 122.2. Notice of Intent — a standardized format notification sent to the NYSDEC to inform them of the proposed activity to be sent after the SWPPP has been completed. Owner or Operator — means the person, persons or legal entity which owns or leases the property on which the construction activity is occurring; and/or an entity that has operational control over the construction plans and specifications, including the ability to make modifications to the plans and specifications. Post-Construction Stormwater Management Practices — permanent devices constructed or installed onsite to treat stormwater from a site when construction is completed. Qualified Inspector - means a person that is knowledgeable in the principles and practices of erosion and sediment control, such as a licensed Professional Engineer, Certified Professional in Erosion and Sediment Control (CPESC), Registered Landscape Architect, New York State Erosion and Sediment Control Certificate Program holder or other Department endorsed individual(s). It can also mean someone working under the direct supervision of, and at the same company as, the licensed Professional Engineer or Registered Landscape Architect, provided that person has training in the principles and practices of erosion and sediment control. Training in the principles and practices of erosion and sediment control means that the individual working under the direct supervision of the licensed Professional Engineer or Registered Landscape Architect has received four (4) hours of Department endorsed training in proper erosion and sediment control principles from a Soil and Water Conservation District, or other Department endorsed entity. After receiving the initial training, the individual working under the direct supervision of the licensed Professional Engineer or Registered Landscape Architect shall receive four (4) hours of training every three (3) years. It can also mean a person that meets the Qualified Professional qualifications in addition to the Qualified Inspector qualifications. � The �P+ �I�DUP Page 22 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 Note: Inspections of any post-construction stormwater management practices that include structural components, such as a dam for an impoundment, shall be performed by a licensed Professional Engineer. Qualified Professional — means a person that is knowledgeable in the principles and practices of stormwater management and treatment, such as a licensed Professional Engineer, Registered Landscape Architect or other Department endorsed individual(s). Individuals preparing SWPPPs that require the post-construction stormwater management practice component must have an understanding of the principles of hydrology, water quality management practice design, water quantity control design, and, in many cases, the principles of hydraulics. All components of the SWPPP that involve the practice of engineering, as defined by the NYS Education Law (see Article 145) , shall be prepared by, or under the direct supervision of, a professional engineer licensed to practice in the State of New York. Regulated, Traditional Land Use Control MS4 - means a city, town, or village with land use control authority that is required to gain coverage under New York State DEC's SPDES General Permit for Stormwater Discharges from Municipal Separate Stormwater Sewer Systems (MS4s). Sequence of Operations — the individual steps and their specific order which are undertaken in order to construct a project or a given phase of a project from beginning to end. (i.e. clearing, grading, foundation work, landscaping, etc.) State Pollutant Discharge Elimination System (SPDES) — means the system established pursuant to Article 17 of the Environmental Conservation Law (ECL) and 6 NYCRR Part 750 for issuance of permits authorizing discharges to the waters of the state. Stormwater Pollution Prevention Plan (SWPPP) - a report that is compiled providing detailed information about the proposed activity and the specifics to how the stormwater will be managed during construction and after construction is completed. Surface Waters of the State - shall be construed to include lakes, bays, sounds, ponds, impounding reservoirs, springs, rivers, streams, creeks, estuaries, marshes, inlets, canals, the Atlantic Ocean, within the territorial seas of the state of New York and all other bodies of surface water, natural or artificial, inland or coastal, fresh or salt, public or private (except those private waters that do not combine or effect a junction with natural surface or underground waters), which are wholly or partially within or bordering the state or within its jurisdiction. Waters of the state are further defined in 6 NYCRR Parts 800-941. Temporary Stabilization — means that exposed soil has been covered with material(s) as set forth in the technical standard, New York Standards and Specifications for Erosion and Sediment Control, to prevent the exposed soil from eroding. The materials � The �P+ �I�DUP Page 23 Stormwater Pollution Prevention Plan Tait Lane Reserve The LA Group Project # 2018025 can include, but are not limited to, mulch, seed and mulch, and erosion control mats (e.g. jute twisted yarn, excelsior wood fiber mats). Trained Contractor — means an employee from the contracting (construction) company, identified in Part III.A.6., that has received four (4) hours of Department endorsed Appendix A 47 training in proper erosion and sediment control principles from a Soil and Water Conservation District, or other Department endorsed entity. After receiving the initial training, the trained contractor shall receive four (4) hours of training every three (3) years. It can also mean an employee from the contracting (construction) company, identified in Part III.A.6., that meets the qualified inspector qualifications (e.g. licensed Professional Engineer, Certified Professional in Erosion and Sediment Control (CPESC), Registered Landscape Architect, New York State Erosion and Sediment Control Certificate Program holder, or someone working under the direct supervision of, and at the same company as, the licensed Professional Engineer or Registered Landscape Architect, provided they have received four (4) hours of Department endorsed training in proper erosion and sediment control principles from a Soil and Water Conservation District, or other Department endorsed entity). The trained contractor is responsible for the day to day implementation of the SWPPP. G:�Proj-2018\2018025_Allen_Drive_Apartments�2018025Enviro\02SWPPP�2018025_SWPPP.docx � The �P+ �I�DUP Page 24 Appendix A Notice of Intent (NOI) and MS4 Acceptance Form 5/12/2020 NYSDEC eBusiness Portal System-NOI for coverage under Stormwater General Permit for Construction Activity. Revision 1 N01 for coverage under Stormwater General Permit for Construction Activity O Alternate IDTait Lane Reserve Submission HNY-G4Q0-1 JDVK Revision 1 Form Version 1.23 Review Thls step allaws yau to review the form to canfirm the form is papulated campletely and accurately,prior to certificatian and su6mission. Please note:Any wark yau perfarm filling out a form will not be accessi6le 6y NYS�EC staff ar the pu6lic until yau actually su6mit the farm in the'Certify&Su6miY step. OWNER/OPERATOR INFORMATION Owner/Operator Name IGampany/Private Owner/Municipality/Agency/Institution,etc.) NRP Haldings,LLC Owner/Operator Contact Persan Last Name INOT CONSULTANT) Fix Owner/Operator Contact Person First Name Donald Owner/Operator Mailing Address 1228 Eudid Avenue,Suite 400 City Cleveland State Ohio 2ip 44115 Phone 216-865-9803 Email dfix@nrpgraup.cam Federal Tax ID None Specified PROJECT LOCATION Project/Site Name Tait Lane Reserve Street Address(Not P.O.Box) Tait Lane Side of Street Sauth City/Town/Village ITHAT ISSUES 6UIL�ING PERMIT) Saratoga Springs State NY 2ip 12866 Caunty SARATO6A UEC Region 5 Name of Nearest Cross Street Allen�rive https://nform-prod.dec.ny.gov/app/#/submissionwizard/82771 ef8-45c1-4b87-b07c-f18a94c84a30/11 1/8 5/12/2020 NYSDEC eBusiness Portal System-NOI for coverage under Stormwater General Permit for Construction Activity. Revision 1 Distance to Nearest Crass Street�Feet) 150 Project In Relation ta Cross Street East Tax Map Numhers Sectian-Block-Parcel 165.0-2-4.12,165.0-2-6 Tax Map Numhers None Specified 1.Coordinates Provide the Geagraphlc Coardinates tar the project site.The t�Na methods are�. -Navlgate to the project lacatlon on the map�6elaw)and cllck ta place a marker and obtaln the XY caardinates. -The"Flnd Me"button will provlde the lat/long for the person fllling out thls form.Then pan the map to the carrect location and click the map to place a marker and a6tain the XY caordinates. Navigate to yaur lacation and click an the map ta get the X,Y caardinates Latitude Longitude 43.08438510111119 -73.8123253871394 PROJECT DETAILS 2.What is the nature af this project? New Canstruction 3.Select the predaminan�land use for both pre and post develapment conditions. Pre-Development Existing Landuse Pasture/Open Land Post-�evelapment Future Land Use Multifamity Residential 4.In ac�ordan�e with the larger common plan of development or sale,enter the total project site acreage,the acreage ta 6e dlsturbed and the future Imperviaus area(acreage)wlthln the dlsturbed area. ""ROUND TO THE NEAREST TENTH OF AN,4CRE."` Total Site Area(acres) 12.02 Total Area to he Disturbed�acres) 1 0.0 Existing Impervious Area to he Disturbed(acres) 0.0 Future Imperviaus Area Within Disturhed Area Iacres) 6.6 5.Ua you plan to disturb more than 5 acres of soil at any one time? Na 6.Indicate the percentaqe(%1 of each Hydrologic Soil GrouplHSG)at the slte. AI%1 100 B I%) 0 c(/1 a o1r1 a 7.Is this a phased project? Na 8.Enter the planned star�and end dates af the disturhance activities. https://nform-prod.dec.ny.gov/app/#/submissionwizard/82771 ef8-45c1-4b87-b07c-f18a94c84a30/11 2/8 5/12/2020 NYSDEC eBusiness Portal System-NOI for coverage under Stormwater General Permit for Construction Activity. Revision 1 Start Date 4/1/2021 End Uate 12/1/2022 9.Identify the nearest surface waterbody(ies)to which construction site runoff will discharge. Putnam Brook 9a.Type af waterhady identified in ques�ian 9? Stream/Creek Off Site Other Waterbody Type Off Site Uescription Nane Specified 70.Has the surface waterbody�ies in questian 9 heen identified as a 303(d)segment in Appendix E af GP-0-20-007? Na 11.Is this project located in one of the Watersheds identified in Appendix C of GP-0-20-001? Na 72.Is the praject located in ane of the watershed areas associated with AA and AA-5 classified waters? Na If No,skip question 13. 73.Does this constructian activity disturh land with no existing impervious cover and where the SoilSlope Phase is identified as an E or F on the USUA SailSurvey? Na If Yes,what is the acreage to be disturhed? None Specified 74.Wi0.�he project disturh soils within a State regulated wetland or the protected 700 faot adjacent area? Na 75.Does the site runoff enter a separate storm sewer system Iincluding roadside drains,swales,ditches,culverts,etc)? Na 76.What is the name af�he municipality/entity that owns the separate storm sewer system? None Specified 17.Uoes any runoff from the site enter a sewer classified as a Comhined Sewer? Na 78.Will fu�ure use af this si�e he an agricultural proper�y as defined by the NYS AgricuUure and Markets Law? Na 19.Is this praperty awned by a state autharity,state agency,federal government or local government? Na 20.Is this a remediation praject heing done under a Uepartment approved wark plan?�i.e.CERCLA.RCRA,Valuntary Cleanup Agreement,etc.) Na REQUIRED SWPPP COMPONENTS 27.Has the required Erosion and Sediment Control component of the SWPPP heen developed in canformance with the current NYS Standards and Specificatians for Erosion and Sediment Controllaka Blue Book)? Yes 22.Daes this constructian activity require the development of a SWPPP that includes the post-construction starmwater management practice camponent�i.e.Runaff Reduction,Water Quality and Quantity Conirol practices/techniques)? Yes If yau answered No in questian 22,skip question 23 and the Post-construction Criteria and Past-constructian SMP Identification sections. 23.Has the post-construction stormwater management practice component af the SWPPP been developed in conformance with the current NYS Stormwater Management�esign Manual? Yes 24.The Stormwater Pollution Preventian Plan�SWPPP)was prepared 6y: Professianal Engineer�P.E.) SWPPP Preparer The LA Group Cantact Name�Last,Space,First) Stram,Brett Mailing Address 40 Long Alley https://nform-prod.dec.ny.gov/app/#/submissionwizard/82771 ef8-45c1-4b87-b07c-f18a94c84a30/11 3/8 5/12/2020 NYSDEC eBusiness Portal System-NOI for coverage under Stormwater General Permit for Construction Activity. Revision 1 c�ry Saratoga Springs State NY 2ip 12866 Phone 5185878100 Email bstrom@thelagroup.com Uawnlaad SWPPP Preparer Certificatian Form Please take the foLlowing steps to prepare and upload your preparer certification form: 1)Click an the llnk belaw to downlaad a 6lank certiflcatian farm 2)The certified SWPPP preparer should sign thls form S1 Scan the slqned form 4)Upload the scanned document �awnload SWPPP Preparer Certificatian Farm Please uplaad the SWPPP Preparer Certificatian No files uploaded Lamment A nueas�e�er��e�s�ea��ed. None Specified EROSION&SEDIMENT CONTROL CRITERIA 25.Has a construction sequence schedule for the planned management practices 6een prepared? Yes 26.Select all of the erosian and sediment control practices that will be employed an the project site: Temparary Structural �ust Contral Silt Fence Stabilized Construction Entrance Biotechnical Nane Vegetative Measures Mulching Seeding Permanent Structural Land Grading Other None Specified POST-CONSTRUCTION CRITERIA 'IMPORTANT:Completion of Questions 27-39 is not required if response ta Uuestion 22 is No. 27.Identify all site planning practices that were used ta prepare the final site plan/layout far the praject. Locating Development in Less Sensitive Areas 27a.Indicate which of the fallawing sail restaration criteria was used to address the requirements in Section 5.7.6�"Sail Restaratian")of the Uesign Manual�2070 version). All disturbed areas will be restared in accordance with the Sail Restaration requirements in Table 5.3 af the Design Manual(see page 5-221. 28.Provide the total Water puality Valume IWUv)required for this project Ibased on final site plan/layout).IAcre-feet) 0.603 https://nform-prod.dec.ny.gov/app/#/submissionwizard/82771 ef8-45c1-4b87-b07c-f18a94c84a30/11 4/8 5/12/2020 NYSDEC eBusiness Portal System-NOI for coverage under Stormwater General Permit for Construction Activity. Revision 1 29.Past-canstruction SMP Identificatian Uee the Paet-conetructlon SMP Identiflcatlan eectian to Identify the RR techniques(Area Reductian),RR techniquesNalume Reductian)and Standard SMPs wlth RRv Capaclty that were used ta reduce the Tatal WQv Requlred(#24). Identify the SMPs ta 6e ueed by praviding the tatal imperviaus area that contributes runaff to each technlque/practice selected Farthe Area Reduction Techniques,pravlde the tatal contri6uting area �Includes pervlous area)and,if appGca6le,the tatal Impervlaus area that contri6utes runaff to the technlque/practi�e. Nate�.Redevelopinent projects shall use the Post-Constructian SMP Identificatian sectian to Identify the SMPs used to treat and/or reduce the WQv required.If runoff reductian techniques will nat 6e used ta reduce the required WQv,skip to question 33a after identifying the SMPs. 30.Indicate the Total RRv provided by the RR techniques 1Area/Volume Reduction)and Standard SMPs with RRv capacity identified in questian 29.(acre-feet) 0.402 37.Is the Total RRv pravided 1#30)greater than or equal to the total WQv required 1#28)? Na If Yes,ga�o questian 36.If No,go to ques�ian 32. 32.Provide the Minimum RRv required based on HSG.[Minimum RRv Required=IP)(0.95)(Ai)/72.Ai=1s)IAic)]Iacre-feet) 0.120 32a.Is the Total RRv pravided 1#130)greater than or equal ta the Minimum RRv Required(ti32)? Yes If Yes,ga to question 33. Note�,Use the space provided in queetion#3?to summarize the specific site limitatione and justlficatlon far nat reducing 1 00%af W�v requlred�#28).A detalled evaluatian af the speciflc slte limitatians and justiflcatian for not reducing 100%af the WQv requlred 1#28)must also 6e included in the 5\VPPP. If No,sizing criteria has not been meT,therefare,N01 can nat 6e pracessed SWPPP preparer must modify design ta meet sizing criteria. 33.SMPs Uee the Paet-conetruction SMP Identificatian eectian to identify the Standard SMPs and,If applicable,the Alternative SMPs to 6e used to treat the remalning total WQv(=Tatal WQv Requlred In#2f�-Tatal RRv Provlded In#30). Alsa,pravide the tatal impervious area that cantri6utes runaff ta each practice selected. NOTE:Use the Past-construction SMP Identificatian sectian ta identify the SMPs used on Redevelapment projects. 33a.Indicate the Total WQv provided(i.e.WQv treated)hy the SMPs identified in questian N33 and Standard SMPs with RRv Capacity identified in question#29.�acre-feet) 0.234 Nate�.Far the standard SMPs with RRv capaclty,the WQv pravlded by each practice=the W�v calculated using the cantributing drainage area to the practice-pravlded 6y the practice.(See Tahle 3.51n�eslgn ManuaO 34.Provide the sum of the Total RRv provided Iit30)and the WQv pravided 1#33a1. 0.636 35.Is the sum af the RRv provided(k30)and�he WOv pravided�N33a)grea�er than or equal to the total WQv required�N28)? Yes If Yes,ga to question 36. If Nq sizing criteria has not 6een met,therefare,N01 can nat be pracessed.SWPPP preparer must modif design to meet sizing criteria. 36.Provide the total Channel Protection Storage Volume ICPv required and provided ar select waiver Iit36a1,if applicahle. CPv Required(acre-feeU 0.768 CPv Provided�acre-feet) 1.00 36a.The need to provide channel protection has heen waived because: Reduction of the total LPv is achieved on site through runoff reduction techniques or infiltration systems. 37.Provide the Overhank Flaad(Qp)and Extreme Flood�af)cantral criteria or select waiver�#37a),if applicahle. Overbank Flood Control Criteria lQp) https://nform-prod.dec.ny.gov/app/#/submissionwizard/82771 ef8-45c1-4b87-b07c-f18a94c84a30/11 5/8 5/12/2020 NYSDEC eBusiness Portal System-NOI for coverage under Stormwater General Permit for Construction Activity. Revision 1 Pre-Development�CFS) 0.03 Post-�evelapment 1CF5) 1.36 Total Extreme Flood Control Criteria(Qf1 Pre-DevelopmentlLFS) 0.00 Post-Develapment�CFS) 0.60 37a.The need to meet the�p and Qf criteria has 6een waived because: None Specified 38.Has a long term Operatian and Maintenance Plan for the post-constructian stormwater management practice(s)heen develaped? Yes If Yes,Identify the entity responsihle far the long term Operation and Maintenance NRP Haldings,LLC 39.Use this space to summarize the specific site limitations and justification for nat reducing 700�af WQv required�#28).�See questian N32a)This space can also he used far other pertinent praject informatian. 1 00%of the W�v could not be reduced due to shallow depths to seasonalhigh waterta6le. POST-CONSTRUCTION SMP I�ENTIFICATION Runoff Reductian(RR)Techniques,Standard Stormwater Management Prac�ices�SMPs)and Alterna�ive SMPs Identify the Post-canstructian SMPs ta 6e used 6y praviding the tatal impervious area that cantnhutes runoff to each technique/practice seleded.For the Area Reductlon Technlques,pravide the tatal cantrl6uting area(includes pervlaus area)and,If applica6le,the total imperviaus area that cantri6utes runoff ta the technique/practice. RR Techniques�Area Reduction) Round ta the nearest tenth Total Contributing Acres far Canservatian of Natural Area(RR-i) None Specified Total Contributing Impervious Acres for Lanservation of Natural Area(RR-1) None Specified Total Contributing Acres far Sheetflaw ta Riparian Buffers/Filter Strips IRR-2) None Specified Total Contributing Impervious Acres for Sheetflow ta Riparian Buffers/Filter Strips(RR-2) None Specified Total Contributing Acres far Tree Planting/Tree Pit IRR-3) None Specified Total Contributing Impervious Acres for Tree Planting/Tree Pit 1RR-3) None Specified Total Contributing Acres far Disconnectian of Raaftap Runaff�RR-4) None Specified RR Techniques 1Volume Reduction) Total Contributing Imperviaus Acres for�iscannectian af Rooftap Runoff�RR-4) None Specified Total Contributing Impervious Acres for Vegetated Swale(RR-5) None Specified Total Contributing Imperviaus Acres for Rain Garden IRR-6) None Specified Total Contributing Impervious Acres for Stormwater Planter(RR-7) None Specified Total Contributing Imperviaus Acres for Rain BarreUCistem IRR-8) None Specified https://nform-prod.dec.ny.gov/app/#/submissionwizard/82771 ef8-45c1-4b87-b07c-f18a94c84a30/11 6/8 5/12/2020 NYSDEC eBusiness Portal System-NOI for coverage under Stormwater General Permit for Construction Activity. Revision 1 Total Contributing Imperviaus Acres for Poraus Pavement IRR-9) 4.3 Total Contributing Impervious Acres for Green Raof(RR-70) None Specified Standard SMPs with RRv Capacity Total Contributing Impervious Acres for Infiltration Trench(1-1) None Specified Total Contributing Imperviaus Acres for Infiltration Basin 11-2) None Specified Total Contributing Impervious Acres for�ry Well(1-3) None Specified Total Contributing Imperviaus Acres for Underground Infiltration System 11-4) None Specified Total Contributing Impervious Acres for Bioretention 1F-5) None Specified Total Contributing Imperviaus Acres for Dry Swale 10-1) None Specified Standard SMPs Total Contributing Imperviaus Acres for Micropaal Extended Detentian IP-7) None Specified Total Contributing Impervious Acres for Wet Pond 1P-2) 2.3 Total Contributing Imperviaus Acres for Wet Extended Detention IP-3) None Specified Total Contributing Impervious Acres for Multiple Pond System(P-4) None Specified Total Contributing Impervious Acres for Pocket Pond IP-5) None Specified Total Contributing Imperviaus Acres for Surface Sand Filter(F-7) None Specified Total Contributing Impervious Acres for Underground Sand Filter IF-2) Nane Specified Total Contributing Imperviaus Acres for Perimeter Sand Filter(F-3) None Specified Total Contributing Impervious Acres for Organic Filter 1F-4) Nane Specified Total Contributing Imperviaus Acres for Shallow Wetland 1W-7) None Specified Total Contributing Impervious Acres for Extended Uetention Wetland(W-2) Nane Specified Total Contributing Imperviaus Acres for Pond/Wetland System IW-3) None Specified Total Contributing Impervious Acres for Pocket Wetland(W-4) None Specified Total Contributing Imperviaus Acres for Wet Swale 10-2) None Specified Alternative SMPs(�0 NOT INLLUDE PRACTILES BEING USE�FOR PRETREATMENT ONLY) Total Contributing Imperviaus Area for Hydradynamic None Specified Total Contributing Impervious Area for Wet Vault Nane Specified Total Contributing Imperviaus Area for Media Filter None Specified https://nform-prod.dec.ny.gov/app/#/submissionwizard/82771 ef8-45c1-4b87-b07c-f18a94c84a30/11 7/8 5/12/2020 NYSDEC eBusiness Portal System-NOI for coverage under Stormwater General Permit for Construction Activity. Revision 1 "Other"Alternative SMP? None Specified Total Contributing Impervious Area for"Other" None Specified Provide the name and manufaturer of the alternative SMPs li.e.proprietary practicels))being used for WUv treatment. Note:Redevelapment projects which do not use RR techniques,shall use questions 28,29,33 and 33a to provide SMPs used,total Wav required and total WQv provided far the praject. Manufacturer of Alternative SMP None Specified Name of Alternative SMP Nane Specified OTHER PERMITS 40.Identify ather DEC permits,existing and new,that are required far this praject/facility. Nane If SPDES Multi-Sector GP,then give permit IU None Specified If Other,then identify None Specified 47.Does this praject require a US Army Corps of Engineers Wetland Permit? Na If"Yes;'then indicate Size of Impact,in acres,to the nearest tenth Nane Specified 42.If this N01 is heing submitted for the purpase of continuing ar transferring coverage under a general permit far starmwater runoff fram construction activities,please indicate the former SPUES numher assigned. None Specified M54 SWPPP ACCEPTANCE 43.Is this praject subject to the requirements of a regulated,traditional land use cantral M54? Na If No,skip question 44 44.Has the"M54 SWPPP Acceptance"farm 6een signed 6y the principal executive officer or ranking elected official and su6mitted along with ihis N01? None Specified M54 SWPPP Acceptance Farm Dawnlaad �ownload form from the link below.Complete,sign,and upload. M54 SWPPP Acceptance Farm M54 Acceptance Farm Uplaad No files uploaded Lamment None Specified OWNER/OPERATOR CERTIFICATION The owner/aperatar must downlaad,sign,and upload the certification farm in arderta camplete this applicatian. Owner/Operator Certificatian Form Download �awnload the certification farm 6y dicking the link 6elow.Camplete,sign,scan,and uplaad the form. Owner/OperatarCertiflcatian Fann IP�F,45KB) Upload Owner/Operator Certification Form No files uploaded Camment � neiea,�o�ea�e��req��red. None Specified https://nform-prod.dec.ny.gov/app/#/submissionwizard/82771 ef8-45c1-4b87-b07c-f18a94c84a30/11 8/8 Appendix B Stormwater Management Report Hydro CAD � The �A GR�JUP ,� � �� >i� � ;r nr��_� ��G vv��ti� 1n��I,�c��uF� cani LandscapP Architecture�3.�nyineering P.C. Stormwater Management Report for: Tait Lane Reserve at Tait Lane Saratoga Springs, NY 12866 Saratoga County Owner/Operator(s): NRP Holdings, LLC 1228 Euclid Avenue, Suite 400 Cleveland, Ohio 44115 Contact: Donald Fix (216) 865-9803 SWM Report Contact(s): The LA Group, PC 40 Long Alley Saratoga Springs, NY 12866 1-518-587-8100 Project No. 2018025 Preparation Date: May 8, 2020 Stormwater Management Report Tait Lane Reserve 2018025 Table of Contents 1.0 INTRODUCTION.................................................................................................................4 2.0 PROJECT DESCRIPTION.................................................................................................4 2.1 SITE LOCATION....................................................................................................................4 2.2 PROJECT DESCRIPTION.........................................................................................................4 2.3 SOIL CONDITIONS/SOIL TESTING .........................................................................................4 2.4 CURVE NUMBERS AND RAINFALL DATA..............................................................................5 3.0 EXISTING CONDITIONS..................................................................................................5 4.0 PROPOSED CONDITIONS................................................................................................5 5.0 NYSDEC DESIGN CRITERIA...........................................................................................6 S.1 SITE PLANNING TO PRESERVE NATURAL FEATURES............................................................7 5.2 WATER QUALITY VOLUME�WQV�......................................................................................8 5.3 RUNOFF REDUCTION VOLUME�RRV�..................................................................................9 5.4 CHANNEL PROTECTION VOLUME�CPV� ............................................................................10 S.S OVERBANK FLOOD�QP�AND EXTREME FLOOD�QF�ATTENUATION.................................10 6.0 PROPOSED STORMWATER FACILITIES.................................................................10 6.1 PRETREATMENT.................................................................................................................1 O 6.2 TREATMENT.......................................................................................................................11 7.0 POST-CONSTRUCTION MAINTENANCE REQUIREMENTS................................11 7.0 REFERENCES...................................................................................................................12 Stormwater Management Report Tait Lane Reserve 2018025 Attachment A SoilInvestigations Soil Survey Natural Resource Map B Existing Conditions Watershed Map and HydroCAD Calculations C Proposed Conditions Watershed Map, HydroCAD Calculations & Frozen Conditions D Storm Data Stormwater Management Report Tait Lane Reserve 2018025 1.0 INTRODUCTION The following is a Stormwater Management Report (SWM Report) developed for the Operator, NRP Holdings, LLC, for the Tait Lane Reserve, herein referred to as the "Proj ect." It is prepared in accordance with the New York State Department of Environmental Conservation (NYSDEC) Stormwater Management Design Manual, dated January, 2015. The Project has been designed in accordance with Chapter 4 of the NYSDEC Stormwater Management Design Manual (SWMDM), and NYSDEC's General Permit GP-0-20-001 for construction activities. Stormwater calculations were performed utilizing widely accepted engineering methodologies, including TR-55, and the stormwater modeling computer program HydroCAD (version 10.00)produced by HydroCAD Software Solutions, LLC. 2.0 PROJECT DESCRIPTION 21 Site Location The Project is located off Tait Lane and Allen Drive in Saratoga Springs, Saratoga County, NY 12866. Access to the site is off of Tait Lane and Allen Drive. 2.2 Project Description The proposed proj ect involves the development of twelve (12) residential apartment buildings located on the east side of Allen Drive and south of Tait Lane. The residential buildings will have one, two and three bedroom apartments. The property is currently undeveloped woodland. The remainder of the proposed site improvements includes construction of a parking lot, site lighting, landscaping, stormwater controls, and connections to municipal water and sewer. The project is considered a new development project per Chapters 4 of the SWMDM. The Project Site represents the area that will be disturbed as a result of the Proj ect. 2.3 Soil Conditions/Soil Testing According to the Natural Resources Conservation Service (NRCS) Web Soil Survey, the area surrounding the Project Site is comprised of Deerfield loamy fine sand, Oakville loamy fine sand and Windsor loamy sand and Scarboro mucky fine sandy loam. The hydrological soil group classifications for the soils are `A. �� The I_.A GRC.�UP 4 Stormwater Management Report Tait Lane Reserve 2018025 2.4 Curve Numbers and Rainfall Data The surface cover for the project area is grass, woods and an impervious driveway. The curve numbers utilized in the modeling were assigned based on cover type and HSG soil classification. The design storms used for the pre-development versus post-development comparison were the 1, 10, and 100-year, 24-hour duration, SCS Type II events. The rainfall amounts for these storms are 2.15, 3.75, and 6.20 inches, respectively. 3.0 EXISTING CONDITIONS The Project area existing condition, for which this stormwater management plan is based, consists of grass and woods. Under the watershed's existing condition, the majority of the runoff from the site flows to low lying areas on site. Offsite flow to the west of the site, southeast and north are noted as Analysis Points l, 2 & 3 respectively. Analysis Points 1-3 were utilized in comparing all pre- versus post-runoff conditions. Refer to drawing "W-1 Existing Conditions Watershed Map," located in Attachment B for more information. Table 3-1 below provides a summary of the existing conditions peak discharge rates for the Project's watershed. Table 3-1 Existin Conditions Peak Dischar e Rates Analysis AP-1 AP-2 AP-3 Point Design Storm (cfs) (cfs) (cfs) 10-Year 0.00 0.00 0.03 100-Year 0.76 0.00 0.60 Refer to Attachment B for more information on the existing conditions watershed modeling. 4.0 PROPOSED CONDITIONS Under the watershed's Proposed Condition, stormwater from the Project will continue to discharge to the same points as in the Existing Condition (Analysis Points 1-3). The total watershed has generally remained unchanged, as is shown on the drawing "W-2 Proposed Conditions Watershed Map" contained in Attachment C. To meet NYSDEC requirements (see Section 5.0 NYSDEC Design Criteria of this report) a wet pond and porous pavement have been incorporated into the stormwater management design to mitigate the quality and quantity of stormwater runoff discharged from the Project Site. �� The I_.� GRDUP 5 Stormwater Management Report Tait Lane Reserve 2018025 Table 4-1 below provides a summary of the existing conditions versus proposed conditions peak discharge rates for the Project's watershed. Table 4-1 Existin Conditions Versus Pro osed Conditions Peak Dischar e Rates Analysis AP-1 AP-2 AP-3 Point Existing Proposed Existing Proposed Existing Proposed Design Storm (cfs) (cfs) (cfs) (cfs) (cfs) (cfs) 10-Year 0.00 0.00 0.00 0.00 0.03 0.00 100-Year 0.76 0.13 0.00 0.00 0.60 0.47 Refer to Attachment C for more information on the proposed conditions watershed modeling. 5.0 NYSDEC DESIGN CRITERIA The New York State Stormwater Management Design Manual, dated January 2015 (The Manual) has been utilized to develop the stormwater management plan. The Manual includes a five-step process that involves site planning and stormwater management practice selection. The five steps include; • Site planning to preserve natural features and reduce impervious cover, • Calculation of the Water Quality Volume (WQv) for the Site, • Incorporation of green infrastructure techniques and standard SMPs with Runoff Reduction Volume (RRv) capacity, • Use of standard SMPs where applicable, to treat the portion of WQv not addressed by green infrastructure techniques and standard SMPs with RRv capacity, and • Design of volume and peak rate control (where required) The approach of the stormwater management plan was to address the stormwater requirements separately. The five steps were reduced to Site Planning to Preserve Natural Features, Water Quality Volume, Runoff Reduction Volume, Channel Protection Volume, and Overbank Flood and Extreme Storm Attenuation, as discussed in the following sections. Attachment D of this report contains detailed calculations for determining and summarizing the required and provided volumes for Water Quality and Runoff Reduction. In general, the required design criteria (WQv and RRv) were calculated for all areas where site disturbance or green infrastructure techniques are proposed. �� The I_.� GRDUP 6 Stormwater Management Report Tait Lane Reserve 2018025 51 Site Planning to Preserve Natural Features Within Chapter 3 of The Manual, Table 3.1 Green Infrastructure Planning General Categories and Specific Practices includes a list of planning practices utilized in the planning and design of a project. There are two categories, Preservation of Natural Resources and Reduction of Imperious Cover. Preservation of Natural Resources includes: • Preservation of Undisturbed Areas • Preservation of Buffers • Reduction of Clearing and Grading • Locating Development in Less Sensitive Areas • Open Space Design • Soil Restoration Reduction of Impervious Cover includes: • Roadway Reduction • Sidewalk Reduction • Driveway Reduction • Cul-de-sac Reduction • Building Footprint Reduction • Parking Reduction A Natural Resource Map for Green Infrastructure Planning has been developed which indicates natural resource areas and critical environmental areas to be protected (where feasible). As required in Section 3.6 of The Manual, the map includes (where applicable): • Jurisdictional Wetlands o There are wetlands located near the proj ect site. These wetlands were determined to be non jurisdictional will not be impacted as part of this project. • Waterways o No waterways are impacted by the Project. • Wetland Adjacent Area o There are wetlands located near the project site. The development does not impact NYSDEC wetland buffer areas. • Floodplains o The proj ect is not within the flood plain. • Forest, vegetative cover o Project is designed to maintain as much of the woods as feasible. • Topography/Steep slopes o There are no steep slopes located throughout the project. L The I_.� GRDUP � Stormwater Management Report Tait Lane Reserve 2018025 • Existing soils, including hydrologic soil groups and soil erodibility o See Section 2.3 of this Report. • Drainage Patterns o See Section 3.0 of this Report. • Bedrock/Significant geological features o See Section 2.3 of this Report. The Natural Resource Plan indicates the areas to be avoided and depicts the area most suitable for development. 5.2 Water Quality Volume (WQv) The Water Quality Volume (WQv) requirement is designed to improve water quality sizing to capture and treat 90% of the average annual stormwater runoff volumes. The WQv is directly related to the amount of impervious cover created at a site. The following equation is used to determine the water quality storage volume. WQv = (P)(Rv)(A) 12 Where: WQv = Water quality volume (acre/feet) P = 90% Rainfall Event(1.15" for Saratoga Springs) Rv = 0.05 + 0.009(I)where I is percent impervious cover A = Site area in acres The required WQv will be provided by two infiltration basins and underground infiltration chambers designed in accordance with the SWMDM. The total required WQv for the project is 0.603 ac-ft. Refer to Table 5-1 for a summary of the provided water quality volumes for the Proj ect. Table 5-1 Water Qualit Volume Qv Summar SMP Type Provided (ac-ft) SMP 1 Wet Pond 0234 SMP2 Porous Asphalt 0.019 SMP3 Porous Asphalt 0.165 SMP4 Porous Asphalt 0.043 SMPS Porous Asphalt 0.012 �� The I_.� GRDUP s Stormwater Management Report Tait Lane Reserve 2018025 SMP6 Porous Asphalt 0.116 SMP7 Porous Asphalt 0.037 SMP8 Porous Asphalt 0.010 TOTAL 0.636 Refer to Attachment D for detailed WQv calculations. 5.3 Runoff Reduction Volume (RRv) Section 4.3 of the Manual states, "Runoff reduction shall be achieved by infiltration, groundwater recharge, reuse, recycle, evaporation/evapotranspiration of 100 percent of the post- development water quality volumes to replicate pre-development hydrology by maintaining pre- construction infiltration, peak runoff flow, discharge volume, as well as minimizing concentrated flow by using runoff control techniques to provide treatment in a distributed manner before runoff reaches the collection system." The Project does not reduce 100% runoff reduction of the on-site WQv of the project. Utilizing green infrastructure and stormwater management practices with RRv capabilities throughout the project an RRv of 0.402 acre-feet is provided which is greater than the minimum required RRv of 0.120 acre-feet . See Table 5-2 for a summary of the provided runoff reduction volumes for each green infrastructure practice. Table 5-2 Runoff Reduction Volume RRv Summar SMP Provided (ac-ft) 53.1 Conservation of Natural Areas - 53.2 Sheetflow to Riparian Buffers/Filter Strips - 53.3 Vegetated Open Swales - 53.4 Tree Planting/Tree Box - 53.5 Disconnection of Rooftop Runoff - 53.6 Stream Daylighting - 53.7 Rain Garden - 5.3.8 Green Roof - 53.9 Stormwater Planters - 53.10 Rain Tanks/Cisterns - 53.11 Porous Pavement 0.402 TOTAL 0.402(ac-ft) �� The I_.� GRDUP 9 Stormwater Management Report Tait Lane Reserve 2018025 The provided volume is less than the Water Quality Volume. As part of the stormwater management plan, the following green infrastructure planning and design options were evaluated and the corresponding specific site limitations: • 5.3.1 Conservation of Natural Areas o Conservation areas is not proposed as there is insufficient area. • 5.3.2 Sheetflow to Riparian Buffers/Filter Strips o Sheetflow to riparian buffers is not proposed as there are insufficient filter areas. • 5.3.3 Vegetated Open Swales o A vegetated swale is used as part of this project. • 5.3.4 Tree Planting/Tree Box o Tree plantings have been proposed throughout the site but credit is not taken due to the low RRv credit(<0.001 ac-ft)provided. • 5.3.5 Disconnection of Rooftop Runoff o Rooftop disconnection is not proposed as part of the project as the contributing roof area exceeds maximum requirement. • 5.3.6 Stream Daylighting o All subsurface storm sewer piping will be daylighted as soon as possible. • 5.3.7 Rain Garden o Rain gardens are typically applied for residential applications. The contributing drainage areas of project components exceed the maximum contributing area of 1,000 sf(for a rain garden), specified in The Manual. • 5.3.8 Green Roof o A green roof is not proposed as part of this proj ect as it is not financially feasible. • 5.3.9 Stormwater Planters o Stormwater planters are not proposed as part of this project due to poor existing soils. • 5.3.10 Rain Tanks/Cisterns o Rain tanks/cisterns are not financially feasible. • 5.3.11 Porous Pavement o Porous pavement is proposed where feasible. Refer to Attachment D for detailed RRv calculations. 5.4 Channel Protection Volume (CPv) The channel protection volume is reduced through the use of green infrastructure practices (porous pavement). The provided channel protection volume is equal to the water quality volume provided by the porous pavement and the available storage within the wet pond between the permanent pool elevation and the lowest pond outlet. The provided channel protection volume (1.00 ac-ft) is greater than the required channel protection volume of 0.768 ac-ft. �� The I_.� GRDUP lo Stormwater Management Report Tait Lane Reserve 2018025 5.5 Overbank Flood(Qp) and Extreme Flood (Qf� Attenuation The primary purpose of the Overbank Flood (Qp) control sizing criterion is to prevent an increase in the frequency and magnitude of out-of-bank flooding generated by urban development. It requires storage and attenuation of the 10-year, 24-hour storm to ensure post- development peak discharge rates do not exceed the pre-development condition. The intent of the Extreme Flood (Qf� criteria is to (a) prevent the increased risk of flood damage from large storm events, (b) maintain the boundaries of the pre-development 100-year floodplain, and (c) protect the physical integrity of stormwater management practices. It requires storage and attenuation of the 100-year, 24-hour storm to ensure post-development peak discharge rates do not exceed the pre-development condition. During the 10-year and 100-year 24-hour storm the post-development peak discharge rates do not exceed the pre-development rates. See Table 4-1 of this Report for detailed comparison of pre- and post-development peak rates. 6.0 PROPOSED STORMtiVATER FACILITIES The Project is proposing the installation a wet pond and porous asphalt to address stormwater requirements for the project. The stormwater facilities have been indicated on the plans and HydroCAD reports as SMP-1 through SMP-8. SMP-1 is a wet pond located in the south east portion of the site will treat roof runoff and runoff from drives and parking lots. SMP-2- SMP-8 are porous asphalt located throughout the project in roadside parking and parking lots. The porous asphalt treats roof runoff and runoff from drives and parking lots. 61 Pretreatment Pretreatment of runoff for SMPl is provided by a vegetated swale and sediment forebay sized in accordance to the SWMDM (See appendix D for calculations). 6.2 Treatment Treatment for runoff entering all porous asphalt is provided by capturing and treating the entire WQv though infiltration into the underlying soils. Treatment of runoff entering the wet pond is treated by attenuating the full WQv within the permanent pool. 7.0 POST-CONSTRUCTION MAINTENANCE REQUIREMENTS NRP Holdings, LLC. will be responsible for the continuous upkeep and maintenance of all stormwater management facilities. Maintenance includes, but is not limited to, cleaning of sediment from drainage inlet sumps, removal of sediment from SMPs, cleaning conveyance L The I_.� GRDUP ll Stormwater Management Report Tait Lane Reserve 2018025 piping and channels of obstructions, inspection and repair as required of any outlet control mechanisms, and repairing any other detriments in the design that is resulting in the facilities to not function as intended in the design. �� The �.A GRC.�IJP 12 Stormwater Management Report Tait Lane Reserve 2018025 7.0 REFERENCES 1. Urban Hydrology for Small Watersheds. Published by the U.S. Soil Conservation Service, Washington, D.C., June 1986. 2. HydroCAD 10.00 Computer Program, by HydroCAD Software Solutions, LLC. 3. NYSDEC Stormwater Management Design Manual. Published by the New York State Department of Environmental Conservation, Updated January 2015. G:�Proj-2018\2018025 Allen Drive Apartments\2018025EnviroA02SWPPP\2018025_SWM Report.doc �� The I_.A GRC�UP 13 Attachment A Soil Investigations Soil Survey Natural Resource Map �JS[),4 United States A product ofthe National Custom Soil Resource = Department of Cooperative Soil Survey, Agriculture a joint effort of the United Report for � �� States Department of Agriculture and other S a rato g a Federal agencies, State Natural agencies including the Resources Agricultural Experiment �O u ��' �� Conservation Stations, and local Service participants Yo rk �� -� „ � �� Y . �_ ..--_ .— _ - . +i�n _ _ _ .. 1y,�.f �� _� .,n � �� dr. �;�,3 ,�. _ — =4_ "- r4 � � � � ;:_. , ��, � ir ti� . r �� . ,�, r v � � � �"�-. PW� � ... . �� '" .."- , .. . ..... .....s.... /d�. '�, �Mli �', ��• . f _ � _._� �Y '�1 � . _ „�..�. r � x�. � � �in Vi { i .. . � �;.�; t ,y�p� 4`�A� r� �� _ �� op4 ^ 'FwF �`� � � t �'en �V "" r `"_ Y .:� . P°�f �" �� I . ,� fe� �� . 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'V Y(�I� uuuN ,ii�% �� `�a �� " �� , , .: , "; , , . ,. , , � � �� r �.� � � �, - n �. � �� i�� I�(! �t��l�fo�l��'�� . .,, � � � H;, � r � ��i�� Y� I il, � �'� . , � � .., � �e � . �,� �" �.. .a, , , u�n� i w., a, °�'�` ti ; °� , . . p v1' , ,. � i= �.i: �, . � f � `r . a i � Y d+� . , � � �r: � � � � ta � �� '"' � . � �,- � q� . _ ��r �� . �n � � � � v .,rr ,ry ' ' • . `° "' , . ��'� " ' -„ .. y � t `� '� .:. � „ '.,��.� T�"_ ',��"�'�.�� .�� I , �N;, ' �� .,,�'t� �.�� ,1•�� t �., . n� . 1 G �� -----t �-i.-�:ft . '�`� 1".. .. � �+� �; � ., „ � � � �' ' " � �e I � � _ � q � �a November 12, 2019 P reface Soil surveys contain information that affects land use planning in survey areas. They highlight soil limitations that affect various land uses and provide information about the properties of the soils in the survey areas. Soil surveys are designed for many different users, including farmers, ranchers, foresters, agronomists, urban planners, community officials, engineers, developers, builders, and home buyers. Also, conservationists, teachers, students, and specialists in recreation, waste disposal, and pollution control can use the surveys to help them understand, protect, or enhance the environment. Various land use regulations of Federal, State, and local governments may impose special restrictions on land use or land treatment. Soil surveys identify soil properties that are used in making various land use or land treatment decisions. The information is intended to help the land users identify and reduce the effects of soil limitations on various land uses. The landowner or user is responsible for identifying and complying with existing laws and regulations. Although soil survey information can be used for general farm, local, and wider area planning, onsite investigation is needed to supplement this information in some cases. Examples include soil quality assessments (http://www.nres.usda.gov/wps/ portal/nres/main/soils/health/) and certain conservation and engineering applications. For more detailed information, contact your local USDA Service Center (https://offices.sc.egov.usda.gov/locator/app?agency=nres) or your NRCS State Soil Scientist (http://www.nres.usda.gov/wps/portal/nres/detail/soils/contactus/? cid=nres142p2_053951). Great differences in soil properties can occur within short distances. Some soils are seasonally wet or subject to flooding. Some are too unstable to be used as a foundation for buildings or roads. Clayey or wet soils are poorly suited to use as septic tank absorption fields. A high water table makes a soil poorly suited to basements or underground installations. The National Cooperative Soil Survey is a joint effort of the United States Department of Agriculture and other Federal agencies, State agencies including the Agricultural Experiment Stations, and local agencies. The Natural Resources Conservation Service (NRCS) has leadership for the Federal part of the National Cooperative Soil Survey. Information about soils is updated periodically. Updated information is available through the NRCS Web Soil Survey, the site for official soil survey information. The U.S. Department of Agriculture (USDA) prohibits discrimination in all its programs and activities on the basis of race, color, national origin, age, disability, and where applicable, sex, marital status, familial status, parental status, religion, sexual orientation, genetic information, political beliefs, reprisal, or because all or a part of an individual's income is derived from any public assistance program. (Not all prohibited bases apply to all programs.) 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USDA is an equal opportunity provider and employer. 3 Contents Preface....................................................................................................................2 How Soil Surveys Are Made..................................................................................5 SoilMap.................................................................................................................. 8 SoilMap................................................................................................................9 Legend................................................................................................................10 MapUnit Legend................................................................................................ 11 MapUnit Descriptions.........................................................................................11 Saratoga County, New York............................................................................13 DeA—Deerfield loamy fine sand, 0 to 3 percent slopes..............................13 DeB—Deerfield loamy fine sand, 3 to 8 percent slopes..............................14 OaA—Oakville loamy fine sand, nearly level.............................................. 16 WnA—Wndsor loamy sand, 0 to 3 percent slopes.....................................17 References............................................................................................................19 4 How Soil Surveys Are Made Soil surveys are made to provide information about the soils and miscellaneous areas in a specific area. They include a description of the soils and miscellaneous areas and their location on the landscape and tables that show soil properties and limitations affecting various uses. Soil scientists observed the steepness, length, and shape of the slopes; the general pattern of drainage; the kinds of crops and native plants; and the kinds of bedrock. They observed and described many soil profiles. A soil profile is the sequence of natural layers, or horizons, in a soil. The profile extends from the surface down into the unconsolidated material in which the soil formed or from the surface down to bedrock. The unconsolidated material is devoid of roots and other living organisms and has not been changed by other biological activity. Currently, soils are mapped according to the boundaries of major land resource areas (MLRAs). MLRAs are geographically associated land resource units that share common characteristics related to physiography, geology, climate, water resources, soils, biological resources, and land uses (USDA, 2006). Soil survey areas typically consist of parts of one or more MLRA. The soils and miscellaneous areas in a survey area occur in an orderly pattern that is related to the geology, landforms, relief, climate, and natural vegetation of the area. Each kind of soil and miscellaneous area is associated with a particular kind of landform or with a segment of the landform. By observing the soils and miscellaneous areas in the survey area and relating their position to specific segments of the landform, a soil scientist develops a concept, or model, of how they were formed. Thus, during mapping, this model enables the soil scientist to predict with a considerable degree of accuracy the kind of soil or miscellaneous area at a specific location on the landscape. Commonly, individual soils on the landscape merge into one another as their characteristics gradually change. To construct an accurate soil map, however, soil scientists must determine the boundaries between the soils. They can observe only a limited number of soil profiles. Nevertheless, these observations, supplemented by an understanding of the soil-vegetation-landscape relationship, are sufficient to verify predictions of the kinds of soil in an area and to determine the boundaries. Soil scientists recorded the characteristics of the soil profiles that they studied. They noted soil color, texture, size and shape of soil aggregates, kind and amount of rock fragments, distribution of plant roots, reaction, and other features that enable them to identify soils. After describing the soils in the survey area and determining their properties, the soil scientists assigned the soils to taxonomic classes (units). Taxonomic classes are concepts. Each taxonomic class has a set of soil characteristics with precisely defined limits. The classes are used as a basis for comparison to classify soils systematically. Soil taxonomy, the system of taxonomic classification used in the United States, is based mainly on the kind and character of soil properties and the arrangement of horizons within the profile. After the soil 5 Custom Soil Resource Report scientists classified and named the soils in the survey area, they compared the individual soils with similar soils in the same taxonomic class in other areas so that they could confirm data and assemble additional data based on experience and research. The objective of soil mapping is not to delineate pure map unit components; the objective is to separate the landscape into landforms or landform segments that have similar use and management requirements. Each map unit is defined by a unique combination of soil components and/or miscellaneous areas in predictable proportions. Some components may be highly contrasting to the other components of the map unit. The presence of minor components in a map unit in no way diminishes the usefulness or accuracy of the data. The delineation of such landforms and landform segments on the map provides sufficient information for the development of resource plans. If intensive use of small areas is planned, onsite investigation is needed to define and locate the soils and miscellaneous areas. Soil scientists make many field observations in the process of producing a soil map. The frequency of observation is dependent upon several factors, including scale of mapping, intensity of mapping, design of map units, complexity of the landscape, and experience of the soil scientist. Observations are made to test and refine the soil-landscape model and predictions and to verify the classification of the soils at specific locations. Once the soil-landscape model is refined, a significantly smaller number of ineasurements of individual soil properties are made and recorded. These measurements may include field measurements, such as those for color, depth to bedrock, and texture, and laboratory measurements, such as those for content of sand, silt, clay, salt, and other components. Properties of each soil typically vary from one point to another across the landscape. Observations for map unit components are aggregated to develop ranges of characteristics forthe components. The aggregated values are presented. Direct measurements do not exist for every property presented for every map unit component. Values for some properties are estimated from combinations of other properties. While a soil survey is in progress, samples of some of the soils in the area generally are collected for laboratory analyses and for engineering tests. Soil scientists interpret the data from these analyses and tests as well as the field-observed characteristics and the soil properties to determine the expected behavior of the soils under different uses. Interpretations for all of the soils are field tested through observation of the soils in different uses and under different levels of management. Some interpretations are modified to fit local conditions, and some new interpretations are developed to meet local needs. Data are assembled from other sources, such as research information, production records, and field experience of specialists. For example, data on crop yields under defined levels of management are assembled from farm records and from field or plot experiments on the same kinds of soil. Predictions about soil behavior are based not only on soil properties but also on such variables as climate and biological activity. Soil conditions are predictable over long periods of time, but they are not predictable from year to year. For example, soil scientists can predict with a fairly high degree of accuracy that a given soil will have a high water table within certain depths in most years, but they cannot predict that a high water table will always be at a specific level in the soil on a specific date. After soil scientists located and identified the significant natural bodies of soil in the survey area, they drew the boundaries of these bodies on aerial photographs and 6 Custom Soil Resource Report identified each as a specific map unit. Aerial photographs show trees, buildings, fields, roads, and rivers, all of which help in locating boundaries accurately. 7 Soil Map The soil map section includes the soil map for the defined area of interest, a list of soil map units on the map and extent of each map unit, and cartographic symbols displayed on the map. 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V C � R R � F m ' W J � a o �, o Q � Q ° °'• � .= o � � o � o �N Q � a �, a � a �, � �, N a� a� � w. w. w. y � � � � Q a � � � � w Q Q 3 � 0 2 ° ° Q ., � > > > � ... a� w, � 3 w � a� � o o w '_ o 0 Q Q Q R a Q o a �, o o � � m � � cn >. � � °- o m m m w � 3 -o = � `o �� O a� o `o cn a � � � � LL 3 o T N > > a m w a� c°�i � � � � � Y a� a y � �o �o �o � o o m o � � � � � � w � o m m a� � a o � Q cn cn cn •o m m U U c7 c7 J J � � � a � cn cn cn in in cn v a � R � �,p� � t O N .�d 4',�"/ ,'1�5 .. . � . .�. � . . . . �` . . ��. . .,.. �� R y Q � .. . ` '0 1 � Q V1 Custom Soil Resource Report Map Unit Legend Map Unit Symbol Map Unit Name Acres in AOI Percent of AOI DeA Deerfield loamy fine sand,0 to 2.3 15.1°k 3 percent slopes DeB Deerfield loamy fine sand,3 to 0.2 1.6°k 8 percent slopes OaA Oakville loamy fine sand,nearly 10.8 71.2°k level WnA Windsor loamy sand,0 to 3 1.8 12.1°k percent slopes Totals for Area of Interest 15.2 100.0% Map Unit Descriptions The map units delineated on the detailed soil maps in a soil survey represent the soils or miscellaneous areas in the survey area. The map unit descriptions, along with the maps, can be used to determine the composition and properties of a unit. A map unit delineation on a soil map represents an area dominated by one or more major kinds of soil or miscellaneous areas. A map unit is identified and named according to the taxonomic classification of the dominant soils. Wthin a taxonomic class there are precisely defined limits for the properties of the soils. On the landscape, however, the soils are natural phenomena, and they have the characteristic variability of all natural phenomena. Thus, the range of some observed properties may extend beyond the limits defined for a taxonomic class. Areas of soils of a single taxonomic class rarely, if ever, can be mapped without including areas of other taxonomic classes. Consequently, every map unit is made up of the soils or miscellaneous areas for which it is named and some minor components that belong to taxonomic classes other than those of the major soils. Most minor soils have properties similar to those of the dominant soil or soils in the map unit, and thus they do not affect use and management. These are called noncontrasting, or similar, components. They may or may not be mentioned in a particular map unit description. Other minor components, however, have properties and behavioral characteristics divergent enough to affect use or to require different management. These are called contrasting, or dissimilar, components. They generally are in small areas and could not be mapped separately because of the scale used. Some small areas of strongly contrasting soils or miscellaneous areas are identified by a special symbol on the maps. If included in the database for a given area, the contrasting minor components are identified in the map unit descriptions along with some characteristics of each. A few areas of minor components may not have been observed, and consequently they are not mentioned in the descriptions, especially where the pattern was so complex that it was impractical to make enough observations to identify all the soils and miscellaneous areas on the landscape. 11 Custom Soil Resource Report The presence of minor components in a map unit in no way diminishes the usefulness or accuracy of the data. The objective of mapping is not to delineate pure taxonomic classes but rather to separate the landscape into landforms or landform segments that have similar use and management requirements. The delineation of such segments on the map provides sufficient information for the development of resource plans. If intensive use of small areas is planned, however, onsite investigation is needed to define and locate the soils and miscellaneous areas. An identifying symbol precedes the map unit name in the map unit descriptions. Each description includes general facts about the unit and gives important soil properties and qualities. Soils that have profiles that are almost alike make up a soil series. Except for differences in texture of the surface layer, all the soils of a series have major horizons that are similar in composition, thickness, and arrangement. Soils of one series can differ in texture of the surface layer, slope, stoniness, salinity, degree of erosion, and other characteristics that affect their use. On the basis of such differences, a soil series is divided into soil phases. Most of the areas shown on the detailed soil maps are phases of soil series. The name of a soil phase commonly indicates a feature that affects use or management. For example, Alpha silt loam, 0 to 2 percent slopes, is a phase of the Alpha series. Some map units are made up of two or more major soils or miscellaneous areas. These map units are complexes, associations, or undifferentiated groups. A complex consists of two or more soils or miscellaneous areas in such an intricate pattern or in such small areas that they cannot be shown separately on the maps. The pattern and proportion of the soils or miscellaneous areas are somewhat similar in all areas. Alpha-Beta complex, 0 to 6 percent slopes, is an example. An association is made up of two or more geographically associated soils or miscellaneous areas that are shown as one unit on the maps. Because of present or anticipated uses of the map units in the survey area, it was not considered practical or necessary to map the soils or miscellaneous areas separately. The pattern and relative proportion of the soils or miscellaneous areas are somewhat similar. Alpha-Beta association, 0 to 2 percent slopes, is an example. An undifferentiated group is made up of two or more soils or miscellaneous areas that could be mapped individually but are mapped as one unit because similar interpretations can be made for use and management. The pattern and proportion of the soils or miscellaneous areas in a mapped area are not uniform. An area can be made up of only one of the major soils or miscellaneous areas, or it can be made up of all of them. Alpha and Beta soils, 0 to 2 percent slopes, is an example. Some surveys include miscellaneous areas. Such areas have little or no soil material and support little or no vegetation. Rock outcrop is an example. 12 Custom Soil Resource Report Saratoga County, New York DeA—DeerField loamy fine sand, 0 to 3 percent slopes Map Unit Setting National map unit symbol: 2xfg8 Elevation: 0 to 1,100 feet Mean annual precipitation: 36 to 71 inches Mean annual airtemperature: 39 to 55 degrees F Frost-free period: 145 to 240 days Farmland classification: Farmland of statewide importance Map Unit Composition Deerfield and similar soils: 85 percent Minor components: 15 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of DeerField Setting Landform: Outwash plains, outwash deltas, outwash terraces, kame terraces Landform position (three-dimensional): Tread Down-slope shape: Linear, concave, convex Across-slope shape: Concave, linear, convex Parent material: Sandy outwash derived from granite, gneiss, and/or quartzite Typical profile Ap-0 to 9 inches: loamy fine sand Bw- 9 to 25 inches: loamy fine sand BC-25 to 33 inches: fine sand Cg-33 to 60 inches: sand Properties and qualities Slope: 0 to 3 percent Depth to restrictive feature: More than 80 inches Natural drainage class: Moderately well drained Runoff class: Negligible Capacity of the most limiting layer to transmit water(Ksat): Moderately high to very high (1.42 to 99.90 in/hr) Depth to water table: About 15 to 37 inches Frequency of flooding: None Frequency of ponding: None Salinity, maximum in profile: Nonsaline (0.0 to 1.9 mmhos/cm) Sodium adsorption ratio, maximum in profile: 11.0 Available water storage in profile: Moderate (about 6.5 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 2w Hydrologic Soil Group: A Hydric soil rating: No Minor Components Windsor Percent of map unit: 7 percent 13 Custom Soil Resource Report Landform: Outwash deltas, kame terraces, outwash terraces, outwash plains Landform position (three-dimensional): Tread Down-slope shape: Linear, concave, convex Across-slope shape: Concave, linear, convex Hydric soil rating: No Wareham Percent of map unit: 5 percent Landform: Depressions, drainageways Down-slope shape: Concave Across-slope shape: Concave Hydric soil rating: Yes Sudbury Percent of map unit: 2 percent Landform: Kame terraces, outwash plains, outwash terraces, outwash deltas Landform position (three-dimensional): Tread Down-slope shape: Convex, linear, concave Across-slope shape: Concave, linear, convex Hydric soil rating: No Ninigret Percent of map unit: 1 percent Landform: Outwash terraces, outwash plains, kame terraces Landform position (three-dimensional): Tread Down-slope shape: Linear, convex Across-slope shape: Concave, convex Hydric soil rating: No DeB—DeerField loamy fine sand, 3 to 8 percent slopes Map Unit Setting National map unit symbol: 2xfg9 Elevation: 0 to 1,190 feet Mean annual precipitation: 36 to 71 inches Mean annual airtemperature: 39 to 55 degrees F Frost-free period: 145 to 240 days Farmland classification: Farmland of statewide importance Map Unit Composition Deerfield and similar soils: 85 percent Minor components: 15 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of DeerField Setting Landform: Kame terraces, outwash plains, outwash terraces, outwash deltas Landform position (three-dimensional): Tread Down-slope shape: Convex, linear, concave Across-slope shape: Concave, linear, convex 14 Custom Soil Resource Report Parent material: Sandy outwash derived from granite, gneiss, and/or quartzite Typical profile Ap-0 to 9 inches: loamy fine sand Bw- 9 to 25 inches: loamy fine sand BC-25 to 33 inches: fine sand Cg-33 to 60 inches: sand Properties and qualities Slope: 3 to 8 percent Depth to restrictive feature: More than 80 inches Natural drainage class: Moderately well drained Runoff class: Very low Capacity of the most limiting layer to transmit water(Ksat): Moderately high to very high (1.42 to 99.90 in/hr) Depth to water table: About 15 to 37 inches Frequency of flooding: None Frequency of ponding: None Salinity, maximum in profile: Nonsaline (0.0 to 1.9 mmhos/cm) Sodium adsorption ratio, maximum in profile: 11.0 Available water storage in profile: Moderate (about 6.5 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 2w Hydrologic Soil Group: A Hydric soil rating: No Minor Components Windsor Percent of map unit: 7 percent Landform: Outwash deltas, kame terraces, outwash plains, outwash terraces Landform position (three-dimensional): Tread Down-slope shape: Linear, concave, convex Across-slope shape: Concave, linear, convex Hydric soil rating: No Wareham Percent of map unit: 5 percent Landform: Depressions, drainageways Down-slope shape: Concave Across-slope shape: Concave Hydric soil rating: Yes Sudbury Percent of map unit: 2 percent Landform: Outwash deltas, kame terraces, outwash plains, outwash terraces Landform position (three-dimensional): Tread Down-slope shape: Linear, concave, convex Across-slope shape: Concave, linear, convex Hydric soil rating: No Ninigret Percent of map unit: 1 percent Landform: Kame terraces, outwash terraces, outwash plains Landform position (three-dimensional): Tread Down-slope shape: Convex, linear 15 Custom Soil Resource Report Across-slope shape: Convex, concave Hydric soil rating: No OaA—Oakville loamy fine sand, nearly level Map Unit Setting National map unit symbol: 9wbz Elevation: 600 to 1,200 feet Mean annual precipitation: 36 to 48 inches Mean annual airtemperature: 45 to 48 degrees F Frost-free period: 125 to 160 days Farmland classification: All areas are prime farmland Map Unit Composition Oakville and similar soils: 70 percent Minor components: 30 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of Oakville Setting Landform: Deltas, outwash plains, terraces Landform position (two-dimensional): Summit Landform position (three-dimensional): Tread Down-slope shape: Convex Across-slope shape: Convex Parent material: Sandy eolian, beach ridge, or glaciofluvial deposits Typical profile H1 -0 to 7 inches: loamy fine sand H2- 7 to 37 inches: loamy fine sand H3-37 to 90 inches: loamy fine sand Properties and qualities Slope: 0 to 3 percent Depth to restrictive feature: More than 80 inches Natural drainage class: Well drained Capacity of the most limiting layer to transmit water(Ksat): High to very high (5.95 to 19.98 in/hr) Depth to water table: About 36 to 72 inches Frequency of flooding: None Frequency of ponding: None Available water storage in profile: Low (about 4.5 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 2w Hydrologic Soil Group: A Hydric soil rating: No 16 Custom Soil Resource Report Minor Components Windsor Percent of map unit: 10 percent Hydric soil rating: No Wareham Percent of map unit: 5 percent Hydric soil rating: No Wareham Percent of map unit: 5 percent Hydric soil rating: Yes Deerfield Percent of map unit: 5 percent Hydric soil rating: No Unnamed soils Percent of map unit: 5 percent WnA—Windsor loamy sand, 0 to 3 percent slopes Map Unit Setting National map unit symbol: 2svkg Elevation: 0 to 990 feet Mean annual precipitation: 36 to 71 inches Mean annual airtemperature: 39 to 55 degrees F Frost-free period: 140 to 240 days Farmland classification: Farmland of statewide importance Map Unit Composition �ndsor, loamy sand, and similar soils: 85 percent Minor components: 15 percent Estimates are based on observations, descriptions, and transects of the mapunit. Description of Windsor, Loamy Sand Setting Landform: Dunes, deltas, outwash terraces, outwash plains Landform position (three-dimensional): Tread, riser Down-slope shape: Convex, linear Across-slope shape: Convex, linear Parent material: Loose sandy glaciofluvial deposits derived from granite and/or loose sandy glaciofluvial deposits derived from schist and/or loose sandy glaciofluvial deposits derived from gneiss Typical profile O-0 to 1 inches: moderately decomposed plant material A - 1 to 3 inches: loamy sand Bw-3 to 25 inches: loamy sand 17 Custom Soil Resource Report C-25 to 65 inches: sand Properties and qualities Slope: 0 to 3 percent Depth to restrictive feature: More than 80 inches Natural drainage class: Excessively drained Runoff class: Low Capacity of the most limiting layer to transmit water(Ksat): Moderately high to very high (1.42 to 99.90 in/hr) Depth to water table: More than 80 inches Frequency of flooding: None Frequency of ponding: None Salinity, maximum in profile: Nonsaline (0.0 to 1.9 mmhos/cm) Available water storage in profile: Low (about 3.6 inches) Interpretive groups Land capability classification (irrigated): None specified Land capability classification (nonirrigated): 2s Hydrologic Soil Group: A Hydric soil rating: No Minor Components Deerfield, loamy sand Percent of map unit: 10 percent Landform: Terraces, deltas, outwash plains Landform position (two-dimensional): Footslope Landform position (three-dimensional): Tread, talf Down-slope shape: Linear Across-slope shape: Linear Hydric soil rating: No Hinckley, loamy sand Percent of map unit: 5 percent Landform: Outwash plains, eskers, kames, deltas Landform position (two-dimensional): Summit, shoulder, backslope Landform position (three-dimensional): Nose slope, side slope, crest, head slope, rise Down-slope shape: Convex Across-slope shape: Linear, convex Hydric soil rating: No 18 References American Association of State Highway and Transportation Officials (AASHTO). 2004. Standard specifications for transportation materials and methods of sampling and testing. 24th edition. American Society for Testing and Materials (ASTM). 2005. Standard classification of soils for engineering purposes. ASTM Standard D2487-00. Cowardin, L.M., V. Carter, F.C. Golet, and E.T. LaRoe. 1979. Classification of wetlands and deep-water habitats of the United States. U.S. Fish and Wldlife Service FWS/OBS-79/31. Federal Register. July 13, 1994. Changes in hydric soils of the United States. Federal Register. September 18, 2002. Hydric soils of the United States. Hurt, G.W., and L.M. Vasilas, editors. Version 6.0, 2006. Field indicators of hydric soils in the United States. National Research Council. 1995. Wetlands: Characteristics and boundaries. Soil Survey Division Staff. 1993. Soil survey manual. Soil Conservation Service. U.S. Department of Agriculture Handbook 18. http://www.nres.usda.gov/wps/portal/ n res/d eta i I/n ati o n a I/s o i Is/?cid=n res 142 p2_0 54262 Soil Survey Staff. 1999. Soil taxonomy: A basic system of soil classification for making and interpreting soil surveys. 2nd edition. Natural Resources Conservation Service, U.S. Department of Agriculture Handbook 436. http:// www.nres.usda.gov/wps/portal/nres/detail/national/soils/?cid=nres142p2_053577 Soil Survey Staff. 2010. Keys to soil taxonomy. 11th edition. U.S. Department of Agriculture, Natural Resources Conservation Service. http:// www.nres.usda.gov/wps/portal/nres/detail/national/soils/?cid=nres142p2_053580 Tiner, R.W., Jr. 1985. Wetlands of Delaware. U.S. Fish and Wldlife Service and Delaware Department of Natural Resources and Environmental Control, Wetlands Section. United States Army Corps of Engineers, Environmental Laboratory. 1987. Corps of Engineers wetlands delineation manual. Waterways Experiment Station Technical Report Y-87-1. United States Department of Agriculture, Natural Resources Conservation Service. National forestry manual. http://www.nres.usda.gov/wps/portal/nres/detail/soils/ home/?cid=nres142p2_053374 United States Department of Agriculture, Natural Resources Conservation Service. National range and pasture handbook. http://www.nres.usda.gov/wps/portal/nres/ detail/national/landuse/rangepastu re/?cid=stelprdb1043084 19 Custom Soil Resource Report United States Department of Agriculture, Natural Resources Conservation Service. National soil survey handbook, title 430-VI. http://www.nres.usda.gov/wps/portal/ n res/d eta i I/so i Is/scie ntists/?cid=n res 142 p2_054242 United States Department of Agriculture, Natural Resources Conservation Service. 2006. Land resource regions and major land resource areas of the United States, the Caribbean, and the Pacific Basin. U.S. Department of Agriculture Handbook 296. http://www.nres.usda.gov/wps/portal/nres/detail/national/soils/? cid=n res 142 p2_05 3624 United States Department of Agriculture, Soil Conservation Service. 1961. Land capability classification. U.S. Department of Agriculture Handbook 210. http:// www.nres.usda.gov/Internet/FSE_DOCUMENTS/nres142p2_052290.pdf 20 Allen Drive Apartments Saratoga Springs, New York l��rr�con December 5, 2018 Terracon Project No. JB185172 GeoRepart ,,,,,,,,,,,,,,,,,,, ��; �� , r,�� ,�;�� ;�W� ° � . -.� D54 >� �,8 -0 Y,S� ��I" �q i l , n �,T "` S,� ? 1� ., � � � a � � *o ,� u ,,� �, � ro., � , ' : � �� zr . .�.. ..� . R' � o� � .� ,. ��.. .... „�.� . � i�.. ..,�.�o . . .. � �, . . o . .. .,. .. ,,.. .. , p.„ .. ,�, ,�.. „, � �� . . � ,,. . . 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Coordinates were obtained with a handheld GPS unit (estimated horizontal accuracy of about ±10 feet). If elevations and a more precise test layout are desired, we recommend test pits be surveyed following completion of fieldwork. Subsurface Exploration Procedures: Test pits were excavated utilizing a Volvo EC-160 track mounted excavator. Upon completion, all test pits were backfilled, without compaction, with the excavated soils. TEST PIT LOG NO. TP-1 Page 1 of� PROJECT: Allen Drive Apartments CLIENT: The NRP Group LLC Cleveland, OH SITE: Allen Drive Saratoga Springs, NY c� LOCATION See Exhibit A-2 w z � OLatitude:43.0853°Longitude:-73.8126° � �O _ H �� J a a w� a � � �m a DEPTH ELEVATION Ft. o � TOPSOIL,4"topsoil POORLY GRADED SAND(SP�, brown,moist `::z.o POORLY GRADED SAND(SP), mottled brown and gray, moist to wet � . N ' N , F � � 5 w . Q . a ':. g w ' � :' ¢ ¢ .`, 0 i . z O ' U : Q � . � � : �o.0 10 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q r N � m J > 0 Z � 0 J � Q � � 0 � F � 0 W � Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See Exhibit A-3 for description of field Notes: LL o procedures. Q See Appendix B for description of laboratory > procedures and additional data(if any). o Abandonment Method: See Appendix C for explanation of symbols and Z Backfilled with spoils abbreviations. � c� � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 5 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galisha � 594 Broadway F Watervliet,NY Project No.:JB185172 Exhibit: A-1 TEST PIT LOG NO. TP-2 Page 1 of� PROJECT: Allen Drive Apartments CLIENT: The NRP Group LLC Cleveland, OH SITE: Allen Drive Saratoga Springs, NY c� LOCATION See Exhibit A-2 w z � OLatitude:43.0849°Longitude:-73.8132° � �O _ H �� J a a w� a � � �m a DEPTH ELEVATION Ft. o � —. `.o� TOPSOIL,8"topsoil FILL-SILT(ML�, brown, moist 3.0 � : :: POORLY GRADED SAND(SP), brown,moist to wet N .' N F . � 5 w Q � J , a � ' w :' � ¢ ': ¢ ' o . i ., .. ;: z . O U .' Q . � � . � :. :::�o.0 10 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q r N � m J > 0 Z � 0 J � Q � � 0 � F � 0 W � Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See Exhibit A-3 for description of field Notes: LL o procedures. Q See Appendix B for description of laboratory > procedures and additional data(if any). o Abandonment Method: See Appendix C for explanation of symbols and Z Backfilled with spoils abbreviations. � c� � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 6 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galisha � 594 Broadway F Watervliet,NY Project No.:JB185172 Exhibit: A-3 TEST PIT LOG NO. TP-3 Page 1 of� PROJECT: Allen Drive Apartments CLIENT: The NRP Group LLC Cleveland, OH SITE: Allen Drive Saratoga Springs, NY c� LOCATION See Exhibit A-2 w z � OLatitude:43.0849°Longitude:-73.8123° � �O _ H �� J a a w� a � � �m a DEPTH ELEVATION Ft. o � — � 0.5 TOPSOIL,6"topsoil FILL-SANDY SILT(ML� 1.5 TOPSOIL, possible old topsoil layer at 1.5 feet POORLY GRADED SAND(SP�, mottled brown gray and red, moist � . N N 0 5.0 � F :;:.:.;:. POORLY GRADED SAND(SP�,dark brown, moist to wet 5 Q J ' a . � ' � .. ¢ � . o :: : 8.0 o� Tesf Pif Terminafed af 8 Feef U Q � � F a c� � a ¢ > � 0 w J Q r N � m J > 0 Z � 0 J � Q � � 0 � F � 0 W � Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See Exhibit A-3 for description of field Notes: LL o procedures. Q See Appendix B for description of laboratory > procedures and additional data(if any). o Abandonment Method: See Appendix C for explanation of symbols and Z Backfilled with spoils abbreviations. � c� � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 5 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galisha � 594 Broadway F Watervliet,NY Project No.:JB185172 Exhibit: A-4 TEST PIT LOG NO. TP-4 Page 1 of� PROJECT: Allen Drive Apartments CLIENT: The NRP Group LLC Cleveland, OH SITE: Allen Drive Saratoga Springs, NY c� LOCATION See Exhibit A-2 w z � OLatitude:43.0847°Longitude:-73.8128° � �O _ H �� J a a w� a � � �m a DEPTH ELEVATION Ft. o � — � 0.5 TOPSOIL,6"topsoil FILL-SILT(ML�, brown, moist 3.0 � : :: POORLY GRADED SAND(SP), mottled red brown and gray, moist to wet N .' N F . � � 5 w � :. Q .. J , a � ' w :' � ¢ ': ¢ ' o . i ., .. ;: z . O U .' Q . � � . � :. :::�o.0 10 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q r N � m J > 0 Z � 0 J � Q � � 0 � F � 0 W � Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See Exhibit A-3 for description of field Notes: LL o procedures. Q See Appendix B for description of laboratory > procedures and additional data(if any). o Abandonment Method: See Appendix C for explanation of symbols and Z Backfilled with spoils abbreviations. � c� � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 5 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galisha � 594 Broadway F Watervliet,NY Project No.:JB185172 Exhibit: A-5 TEST PIT LOG NO. TP-5 Page 1 of� PROJECT: Allen Drive Apartments CLIENT: The NRP Group LLC Cleveland, OH SITE: Allen Drive Saratoga Springs, NY c� LOCATION See Exhibit A-2 w z � OLatitude:43.0843°Longitude:-73.8132° � �O _ H �� J a a w� a � � �m a DEPTH ELEVATION Ft. o � TOPSOI L /J \A.�/' �\{'� �\ �i'��i. �'3.0 � : :: POORLY GRADED SAND(SP),dark brown, moist to wet N .' N F . � � 5 w ¢ : 6.0 � :;. POORLY GRADED SAND(SP�,grayish brown,wet w : � ¢ .. � o '. :''8.0 o� Tesf Pif Terminafed af 8 Feef U Q � � F a c� � a ¢ > � 0 w J Q r N � m J > 0 Z � 0 J � Q � � 0 � F � 0 W � Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See Exhibit A-3 for description of field Notes: LL o procedures. Q See Appendix B for description of laboratory > procedures and additional data(if any). o Abandonment Method: See Appendix C for explanation of symbols and Z Backfilled with spoils abbreviations. � c� � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 5 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galisha � 594 Broadway F Watervliet,NY Project No.:JB185172 Exhibit: A-6 TEST PIT LOG NO. TP-6 Page 1 of� PROJECT: Allen Drive Apartments CLIENT: The NRP Group LLC Cleveland, OH SITE: Allen Drive Saratoga Springs, NY c� LOCATION See Exhibit A-2 w z � OLatitude:43.0844°Longitude:-73.8122° � �O _ H �� J a a w� a � � �m a DEPTH ELEVATION Ft. o � — � 0.5 TOPSOIL,6"topsoil POORLY GRADED SAND(SP�, mottled red, brown and gray, moist 3.0 � . :: POORLY GRADED SAND(SP),gray, moist to wet N .' N F . � 5 w Q � J , a � ' w :' � ¢ ': � . o . 8.0 o� Tesf Pif Terminafed af 8 Feef U Q � � F a c� � a ¢ > � 0 w J Q r N � m J > 0 Z � 0 J � Q � � 0 � F � 0 W � Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See Exhibit A-3 for description of field Notes: LL o procedures. Q See Appendix B for description of laboratory > procedures and additional data(if any). o Abandonment Method: See Appendix C for explanation of symbols and Z Backfilled with spoils abbreviations. � c� � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 6 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galisha � 594 Broadway F Watervliet,NY Project No.:JB185172 Exhibit: A-7 TEST PIT LOG NO. TP-7 Page 1 of� PROJECT: Allen Drive Apartments CLIENT: The NRP Group LLC Cleveland, OH SITE: Allen Drive Saratoga Springs, NY c� LOCATION See Exhibit A-2 w z � OLatitude:43.0838°Longitude:-73.813° � �O _ H �� J a a w� a � � �m a DEPTH ELEVATION Ft. o � — TOPSOIL,9"topsoil � o.a POORLY GRADED SAND(SP), brown,moist 3.0 � . :: POORLY GRADED SAND(SP),gray, moist to wet N .' N F . � 5 w � :. Q .. J , a � � � ' ¢ ': ¢ ' o . i ., .. ;: z . O U .' Q . � � . � :. :::�o.0 10 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q r N � m J > 0 Z � 0 J � Q � � 0 � F � 0 W � Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See Exhibit A-3 for description of field Notes: LL o procedures. Q See Appendix B for description of laboratory > procedures and additional data(if any). o Abandonment Method: See Appendix C for explanation of symbols and Z Backfilled with spoils abbreviations. � c� � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 7 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galisha � 594 Broadway F Watervliet,NY Project No.:JB185172 Exhibit: A-8 TEST PIT LOG NO. TP-8 Page 1 of� PROJECT: Allen Drive Apartments CLIENT: The NRP Group LLC Cleveland, OH SITE: Allen Drive Saratoga Springs, NY c� LOCATION See Exhibit A-2 w z � OLatitude:43.0841°Longitude:-73.8126° � �O _ H �� J a a w� a � � �m a DEPTH ELEVATION Ft. o � — TOPSOIL,4"topsoil � o.a POORLY GRADED SAND(SP), mottled brown red and gray,moist � : 'n 4.0 � POORLY GRADED SAND(SP),gray, moist to wet � : � 5 w :. Q : J a � � ¢ .. � ¢ .. 0 i ..' ::. z O '. U . Q � . � � . �o.0 10 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q r N � m J > 0 Z � 0 J � Q � � 0 � F � 0 W � Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See Exhibit A-3 for description of field Notes: LL o procedures. Q See Appendix B for description of laboratory > procedures and additional data(if any). o Abandonment Method: See Appendix C for explanation of symbols and Z Backfilled with spoils abbreviations. � c� � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 7 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galisha � 594 Broadway F Watervliet,NY Project No.:JB185172 Exhibit: A-9 TEST PIT LOG NO. TP-9 Page 1 of� PROJECT: Allen Drive Apartments CLIENT: The NRP Group LLC Cleveland, OH SITE: Allen Drive Saratoga Springs, NY c� LOCATION See Exhibit A-2 w z � OLatitude:43.0838°Longitude:-73.8122° � �O _ H �� J a a w� a � � �m a DEPTH ELEVATION Ft. o � — TOPSOIL,4"topsoil i'.'ai 1.0 POORLY GRADED SAND(SP�, mottled brown red and gray,moist 3.0 � : :: POORLY GRADED SAND(SP),gray, moist to wet N .' N F . � 5 w � :. Q .. J , a � ' w :' � ¢ ': Q '. o ` ' � i :, .. ,: z . O U .' Q . � � . � :. :::�o.0 10 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q r N � m J > 0 Z � 0 J � Q � � 0 � F � 0 W � Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See Exhibit A-3 for description of field Notes: LL o procedures. Q See Appendix B for description of laboratory > procedures and additional data(if any). o Abandonment Method: See Appendix C for explanation of symbols and Z Backfilled with spoils abbreviations. � c� � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 8 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galisha � 594 Broadway F Watervliet,NY Project No.:JB185172 Exhibit: A-10 TEST PIT LOG NO. TP-10 Page 1 of� PROJECT: Allen Drive Apartments CLIENT: The NRP Group LLC Cleveland, OH SITE: Allen Drive Saratoga Springs, NY c� LOCATION See Exhibit A-2 w z � OLatitude:43.0839°Longitude:-73.8112° � �O _ H �� J a a w� a � � �m a DEPTH ELEVATION Ft. o � — TOPSOIL,4"topsoil � o.a POORLY GRADED SAND(SP), mottled brown red and gray,moist 3.0 � . :: POORLY GRADED SAND(SP),gray, moist to wet N .' N F . � 5 w � :. Q .. J , a � � � ' ¢ ': ¢ ' o . i ., .. ;: z . O U .' Q . � � . � :. :::�o.0 10 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q r N � m J > 0 Z � 0 J � Q � � 0 � F � 0 W � Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See Exhibit A-3 for description of field Notes: LL o procedures. Q See Appendix B for description of laboratory > procedures and additional data(if any). o Abandonment Method: See Appendix C for explanation of symbols and Z Backfilled with spoils abbreviations. � c� � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 7 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galisha � 594 Broadway F Watervliet,NY Project No.:JB185172 Exhibit: A-2 Allen Drive Apartments Saratoga Springs, New York l��rr��an January 10, 2020 Terracon Project No. JB195258 GeoFtepart .,,,,,,,,, � ;..,,.� . . � ,o ." _ � 7 , .a��P ..��1`� ,. M � ��, Li,�N��.` � i ,`;cG :�s�iti,. �� l' � �' ;�� , m�' �. �.� � _ *�. ..,. �:_ �� : .:, � ��k '"�°� . r �� . �yi�(��' a ��d �� ,� .. �'� ' � � �.;<; , . , � , dy '� w �r` ,-.. � � � I � ��t� �� r � �� g 4 � h , A . J � J'. � �. i �� l�' °�"�,', � °"� �� '' � "�, �n� �: �< . } �� N �� .� �� ,��a,�� 't!t �� ' '�. 'r�� . r ts t ��" 3 t,w. 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BORING LOG NO. B-1 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0853°Longitude:-73.8126° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � TOPSOI L + POORLY GRADED SAND WITH SILT(SP-SM�,fine to medium grained,orange to 19 4-5-5-5 brown, moist to wet,very loose to medium dense N=10 Occasional silt partings from about 0.25 to 2 feet �� 3-3-3-3 � N=6 N � O F � 5 w � a 12 1/12"-1/12" � w ¢ � ¢ 0 i z O Z . U Q � � ~ Grades to dark brown 10 � 24 WH-2-2-3 � N=4 Q a ¢ w > � 0 z w J J Q � N 15 N W m 22 2-3-4-4 J N=7 � 17.0 304+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 2 1/4"HSA description of field and laboratory procedures Lo ed b JCH used and additional data(If any). gg y Q WH=Weight of Hammer � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-04-2019 Boring Completed:12-04-2019 � � 3.8 feet while drilling �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B�2 Page 1 of 1 PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0853°Longitude:-73.8123° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:320(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � TOPSOI L +- SILTY SAND(SM�,trace rootlets,fine to medium grained,orange to brown,moist, 22 1-3-6-5 loose N-9 2.0 318+/- POORLY GRADED SAND(SP),fine to medium grained,orange to brown,moist to wet, loose to medium dense 20 4-7-7-8 � � N=14 0 � w Grades to dark brown 5 ¢ 22 2-4-4-4 � N=8 w � ¢ ¢ 0 i z O Z '. ¢ � � � 10 � 2-3-3-4 � 14 N=6 Q a ¢ w > � 0 z w J J Q � � Grades to gray 15 m 24 2-4-8-8 J N=12 � 17.0 303+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 2 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-04-2019 Boring Completed:12-04-2019 � � 3.8 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-3 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0848°Longitude:-73.8131° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � TOPSOI L + POORLY GRADED SAND(SP�,fine to medium grained,orange to brown,moist to wet, 20 1-4-7-4 medium dense N=11 22 4-6-7-7 � N=13 o � � 5.o Drilling mud added to stabilize borehole at 5 feet 316+/- 5 F SILTY SAND(SM), brown,wet, medium dense ¢ 22 4-6-5-5 � N=11 w ¢ � ¢ oi z O Z , U Q � � F 10.0 311+/- �O a POORLY GRADED SAND(SP),fine to medium grained, brown,wet, loose to medium F dense �$ 2-2-4-5 � N=6 Q a ¢ w > � 0 z w J Q � N 15 N W m 23 4-4-6-3 J N=10 � 17.0 304+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � Added drill mud at 5'depth ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-10-2019 Boring Completed:12-10-2019 � � 3.9 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B� Page 1 of 1 PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0846°Longitude:-73.8131° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � POSSIBLE FILL-SILTY SAND(SM�,trace rootlets,orange to brown,moist, loose � 17 2-2-2-5 N=4 2.0 319+/- POORLY GRADED SAND(SP),fine to medium grained,orange to brown,moist to wet, very loose to medium dense 22 6-9-11-11 � Occasional silt partings from 2 to 4 feet N=20 o � � w Drilling mud added to stabilize borehole at 5 feet 5 ¢ 22 3-3-3-3 � N=6 w � ¢ ¢ 0 i z O U Q � W Z ' � 10 � 1-1-1-1 � �� N=2 Q a ¢ w > � 0 z w J J Q � Grades to dark brown 15 m 22 2-2-4-5 J N=6 � 17.0 304+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � Added drill mud at 5'depth ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-10-2019 Boring Completed:12-10-2019 � � 4.1 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-5 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0844°Longitude:-73.813° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:322(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � FILL-POORLY GRADED SAND,fine to medium grained,orange to brown,wet, loose � $ 2N=52 z.o szo+i- �� `2.5 FORMER TOPSOI L 319.5+/- POORLY GRADED SAND WITH SILT(SP-SM),fine to medium grained,orange to 19 1-1-2-4 � brown, moist to wet,very loose to medium dense � N=3 0 � w Drilling mud added to stabilize borehole at 5 feet 5 Q 20 4-4-6-6 � N=10 w � ¢ � ¢ 0 i z O U Q � � F Z . 10.0 312+/- �O a POORLY GRADED SAND(SP),fine to medium grained,dark brown,wet, loose � 24 2-3-4-4 � N=7 Q a ¢ w > � 0 z w J Q � N 15 N W m 22 3-3-3-3 J N=6 � 17.0 305+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � Added drill mud at 5'depth ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-10-2019 Boring Completed:12-10-2019 � � 3.8 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-6 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0848°Longitude:-73.8125° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � TOPSOI L + POSSIBLE FILL-SANDY SILT,trace roots, orange to brown, moist, medium dense 19 2-5-6-8 N=11 � 5-6-5-7 0 22 N=11 0 � 5.0 316+/- 5 u; POORLY GRADED SAND(SP�,fine to medium grained,dark brown,wet,very loose to Q medium dense �$ 3-2-3-4 � N=5 � Q Q oi z O U Q � � � 10 FZ . $ 1-2-1-1 � N=3 Q a ¢ w > � 0 z w J Q � � Grades to gray 15 m 22 4-6-8-11 J N=14 � 17.0 304+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 2 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-05-2019 Boring Completed:12-05-2019 Z No free water observed �� a m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. g�7 Page 1 of 1 PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0845°Longitude:-73.8125° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:320(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � P.. POORLY GRADED SAND WITH SILT AND GRAVEL(SP-SM�,fine to medium grained, `° orange to brown,moist to wet, loose �� 2-4-5-8 �o N=9 2.0 318+/- POORLY GRADED SAND(SP),fine to medium grained,orange to brown,moist to wet, loose to medium dense �$ 4-7-6-5 � Grades to wet N=13 0 � � 5 w ¢ z 19 3-3-3-3 � N=6 w � ¢ � ¢ 0 i z O U Q � � F 10.0 310+/- ,�0 a POORLY GRADED SAND(SP),fine to medium grained,dark brown,wet,very loose � 18 �-1-2-2 � N=3 Q Q 12.0 308+/- � Boring Terminafed af 12 Feef � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-09-2019 Boring Completed:12-09-2019 Z No free water observed �� a m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B�$ Page 1 of 1 PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.084°Longitude:-73.8133° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � =. � 0.6 TOPSOIL 320.5+/- POORLY GRADED SAND(SP�,fine to medium grained,orange to brown,moist to wet, �� 1-1-1-1 very loose to loose N-2 � �2 1-1-1-1 � N=2 0 � w Drilling mud added to stabilize borehole at 5 feet 5 Q �� 2-4-5-8 � N=9 w ¢ � ¢ oi O ¢ Z '' � � w � 10 � 22 2-2-2-4 � N=4 Q a ¢ w > � 0 z w J J Q � � Trace roots from about 15 to 17 feet 15 m 23 2-4-4-5 J N=8 � 17.0 304+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � Added drill mud at 5'depth ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-12-2019 Boring Completed:12-12-2019 � � 3.2 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-9 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0841°Longitude:-73.8129° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � = � 0.5 TOPSOIL 320.5+/- POORLY GRADED SAND(SP�,trace rootlets,fine to medium grained,orange to �� 1-1-1-2 brown, moist to wet,very loose to medium dense N-2 � 19 �-2-1-3 � N=3 0 � w Drilling mud added to stabilize borehole at 5 feet 5 a 19 3-4-6-6 � N=10 w ¢ ¢ 0 i z O Z ¢ � � ~ Grades to dark brown 10 � 22 2-2-3-3 � N=5 Q a ¢ w > � 0 z w J J Q � � Grades to gray 15 m 20 4-6-6-5 J N=12 � 17.0 304+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � Added drill mud at 5'depth ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-12-2019 Boring Completed:12-12-2019 � � 2.4 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-11 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0841°Longitude:-73.8122° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:322(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � TOPSOI L + SILTYSAND(SM�,trace rootlets, brown,moist,very loose �� 2-2-1-1 N=3 o �I N O � 5.0 317+/- 5 u; POORLY GRADED SAND(SP�,trace silt,fine to medium grained,orange to brown, Q moist to wet,medium dense 22 5-6-7-4 � Trace clay partings from about 5 to 7 feet N=13 � Q Q oi z O Z ;: U Q � � � 10 � 22 3-4-6-6 � N=10 Q a ¢ w > � 0 z w J Q � N `.15.0 307+/- �5 � SILTY SAND(SM),with silt and clay partings, brown,wet, loose m 19 4-4-5-4 J N=9 � 17.0 305+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-18-2019 Boring Completed:12-18-2019 Z No free water observed �� a m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-12 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0837°Longitude:-73.8132° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � = � 0.5 TOPSOIL 320.5+/- POORLY GRADED SAND(SP�,trace silt,fine to medium grained,orange to brown, 12 1-1-1-2 wet,very loose to medium dense N-2 20 z-2-2-3 � � N=4 0 � w Drilling mud added to stabilize borehole at 5 feet 5 ¢ 22 3-3-3-3 � Grades to brown N=6 w ¢ ¢ 0 i z O Z ¢ � � � 10 F19 4-3-4-4 � N=7 Q a ¢ w > � 0 z w J J Q � N 15 N W m �$ 8-10-8-8 J N=18 � 17.0 304+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � Added drill mud at 5'depth ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-13-2019 Boring Completed:12-13-2019 � � 3.6 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-13 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0837°Longitude:-73.8129° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � =. � 0.6 TOPSOIL 320.5+/- POORLY GRADED SAND WITH SILT(SP-SM�,trace rootlets,fine to medium grained, �� 1-1-2-2 orange to brown,moist to wet,very loose to loose N=3 18 z-2-3-3 � � N=5 � 4.0 317+/- � POORLY GRADED SAND(SP),fine to medium grained, brown,wet, loose � � 5 w Q �$ 3-3-3-4 � N=6 w ¢ � ¢ 0 i z O ¢ Z '' � � w � 10 � 3-3-3-3 Q Grades to gray 20 N=6 a ¢ w > � 0 z J J Q � N 15 N W m 20 3-2-3-3 J N=5 � 17.0 304+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-13-2019 Boring Completed:12-13-2019 � � 3.6 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-14 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0837°Longitude:-73.8123° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � —.� 0.7 TOPSOIL 320.5+/- POORLY GRADED SAND(SP�,trace silt,fine to medium grained,orange to brown, 23 2-2-4-4 moist to wet,loose N=6 0 N I O F w Grades to wet,gray 5 a 22 2-2-2-3 � N=4 w � ¢ � ¢ 0 i z O U Z Q � � W 10.0 311+/- �O � a SILTY SAND(SM),gray,wet, medium dense � 24 2-4-6-6 � N=10 a ¢ w > � 0 z w J J Q � 15.0 306+/- ,�5 � POORLY GRADED SAND(SP),fine to medium grained,gray,wet, loose m 20 3-3-5-5 J N=8 � 17.0 304+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-18-2019 Boring Completed:12-18-2019 Z No free water observed �� a m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-16 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0834°Longitude:-73.8129° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � —.� 0.7 TOPSOIL 320.5+/- POORLY GRADED SAND(SP�,trace silt,fine to medium grained,orange to brown, 18 1-1-2-2 moist to wet,very loose to loose N=3 2-3-3-3 � Grades to wet 20 N=6 0 � � 5 w Q 20 3-4-5-6 � N=9 w � ¢ � ¢ 0 i z O U Z Q � � F 10.0 311+/- �O a SILTY SAND(SM),occasional silt partings,gray to brown,wet, loose to medium dense � 22 3-3-4-4 � N=7 a ¢ w > � 0 z w J J Q � N 15 N W m 23 5-5-5-5 J N=10 � 17.0 304+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-13-2019 Boring Completed:12-13-2019 Z No free water observed �� a m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-17 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0831°Longitude:-73.8128° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:322(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � POORLY GRADED SAND(SP�,fine to medium grained,orange to brown,moist to wet, loose 22 1-3-4-4 N=7 Grades to wet � 18 z-4-5-5 � N=9 0 � 5.0 317+/- FJ u; SILTY SAND(SM�,with silt partings,orange to brown,wet, loose a 19 3-2-3-2 � N=5 w ¢ � ¢ oi z O 2 U Q � � W 10.0 312+/- �O a POORLY GRADED SAND(SP),fine to medium grained,gray to brown,wet, loose � 23 2-2-3-3 � N=5 Q a ¢ w > � 0 z w J Q � N 15 N W m 24 3-4-4-6 J N=8 � 17.0 305+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-13-2019 Boring Completed:12-13-2019 � � 3.1 after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-18 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0833°Longitude:-73.8123° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � TOPSOI L � ;.� �.o szo+i- 18 2-6-5-4 POORLY GRADED SAND WITH SILT(SP-SM�,fine to medium grained,orange to N=11 brown, moist to wet, loose � 22 2-4-5-5 � N=9 0 � � 5 w ¢ 23 3-4-4-5 � N=8 w � ¢ � ¢ 0 i z O ¢ 2 .' � � W 10.0 311+/- �O a POORLY GRADED SAND(SP),fine to medium grained,gray,wet, loose to medium F dense 24 1-2-2-2 � N=4 Q a ¢ w > � 0 z w J Q � N 15 N W m 24 3-6-5-5 J N=11 � 17.0 304+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-16-2019 Boring Completed:12-16-2019 � � 3.2 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-19 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0831°Longitude:-73.8122° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:323(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � = � 0.5 TOPSOIL 322.5+/- POORLY GRADED SAND(SP�,fine to medium grained,orange to brown,moist to wet, 22 2-3-2-3 loose N=5 Grades to wet � �� 2-2-3-3 � N=5 0 � 5.0 318+/- 5 u; SILTY SAND(SM�, brown,wet,very loose a �9 2-2-1-1 � N=3 w ¢ � ¢ oi z O Z , ¢ � � W 10.0 313+/- ,�0 a POORLY GRADED SAND(SP),fine to medium grained,gray,wet, loose � 22 �-2-2-3 � N=4 Q a ¢ w > � 0 z w J Q � N 15 N W m 24 2-2-4-5 J N=6 � 17.0 306+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-16-2019 Boring Completed:12-16-2019 � � 3 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. 8�2� Page 1 of 1 PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0834°Longitude:-73.8119° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � POORLY GRADED SAND(SP�,trace silt,fine to medium grained, brown,moist to wet, loose to medium dense 20 3-5-5-6 N=10 0 N I O F w Grades to wet,gray 5 a 19 3-3-4-4 � N=7 w � ¢ � ¢ oi z O 2 U Q � � W aOccasional silt partings from about 10 to 12 feet 10 � 4-2-4-4 � 19 N=6 Q a ¢ w > � 0 z w J J Q � N 15 � m 2-2-2-2 J Grades to trace gravel 22 N=4 � 17.0 304+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-18-2019 Boring Completed:12-18-2019 Z No free water observed �� a m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-21 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0831°Longitude:-73.8119° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:322(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � = ` 0.5 TOPSOIL 321.5+/- SILTY SAND(SM�,trace rootlets,fine to medium grained,orange to brown,moist to 13 1-2-2-4 wet, loose N=4 0 � N I O � 5.0 317+/- 5 u; SILTY SAND(SM�,gray to brown,wet,very loose to loose a 19 3-3-5-5 � N=8 w ¢ � ¢ oi z O Z , ¢ � � � 10 � 2-3-3-2 � 22 N=6 Q a ¢ w > � 0 z w J Q � N 15 N W m 19 2-1-2-1 J N=3 � 17.0 305+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-16-2019 Boring Completed:12-16-2019 � � 3.1 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. 8�22 Page 1 of 1 PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0829°Longitude:-73.8128° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:327(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � POORLY GRADED SAND(SP�,trace silt,fine to medium grained, brown,moist to wet, very loose to medium dense �$ 3-5-6-6 N=11 0 N I O F w Grades to wet 5 Q �$ 2-1-2-1 � N=3 w � ¢ � ¢ oi z O 2 U Q � � W aGrades to gray 10 � 4-5-6-6 � �� N=11 Q a ¢ w > � 0 z w J J Q � 15.0 s�z+i- 15 � POORLY GRADED SAND WITH SILT(SP-SM),silt and clay partings,fine to medium m grained, brown,wet, loose 12 1-2-2-2 J N=4 � 17.0 310+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-17-2019 Boring Completed:12-17-2019 Z No free water observed �� a m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-23 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0827°Longitude:-73.8128° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:326(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � POORLY GRADED SAND(SP�,trace silt,fine to medium grained, brown,moist to wet, loose to medium dense 20 4-6-6-5 N=12 0 N I O F w Grades to wet 5 Q �� 1-2-2-1 � N=4 w � ¢ � ¢ oi z O 2 U Q � � W � 10 � 3-4-6-8 � 22 N=10 Q a ¢ w > � 0 z w J J Q � � Grades to gray 15 m 23 3-4-4-5 J N=8 � 17.0 309+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-17-2019 Boring Completed:12-17-2019 Z No free water observed �� a m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-25 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0828°Longitude:-73.8122° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:325(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � POORLY GRADED SAND(SP�,trace silt,fine to medium grained, brown,wet, loose to medium dense 19 2-3-4-4 N=7 o �I N O F � 5 w ¢ 22 2-4-4-4 � N=8 w � ¢ � ¢ oi z O 2 U Q � � W � 10 � 3-7-8-8 � 24 N=15 Q a ¢ w > � 0 z w J J Q � N 15 � m 22 5-7-9-8 J N=16 � 17.0 308+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-17-2019 Boring Completed:12-17-2019 Z No free water observed �� a m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. B-26 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0828°Longitude:-73.812° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:324(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � POORLY GRADED SAND(SP�,trace silt,fine to medium grained,orange to brown, wet, loose to medium dense 20 2-4-5-6 N=9 � o �I N O F � 5 w ¢ 22 2-2-2-2 � N=4 w � ¢ � ¢ oi z O 2 U Q � � W aGrades to gray to brown 10 � 2-2-4-4 � 24 N=6 Q a ¢ w > � 0 z w J J Q � N 15 � m 22 2-5-6-6 J N=11 � 17.0 307+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: " 4 1/4"HSA description of field and laboratory procedures � used and additional data(If any). J Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-16-2019 Boring Completed:12-16-2019 � � 1.9 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. g�27 Page 1 of 1 PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0828°Longitude:-73.8117° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:323(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � TOPSOI L + POORLY GRADED SAND(SP�,trace silt,fine to medium grained,orange to brown, 20 2-4-4-4 moist, loose to medium dense N-$ o � N I O F w Grades to wet 5 ¢ 22 3-5-5-6 � N=10 � Q � Q 0 i z O Z : U Q � � W 10.0 313+/- ,�0 � a SILTY SAND(SM),orange to brown,wet, loose � 22 3-4-5-7 � N=9 a ¢ w > � 0 z w J J Q � 15.0 308+/- ,�5 � POORLY GRADED SAND(SP),fine to medium grained,gray to brown,wet, loose m 20 3-4-2-4 J N=6 � 17.0 306+/- o Boring Terminafed af 17 Feef c� 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � ¢ a w � Advancement Method: See for a Notes: " 4 1/4"HSA description of field and laboratory procedures � used and additional data(If any). J Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-16-2019 Boring Completed:12-16-2019 � � 3.3 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. I-26 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0839°Longitude:-73.8112° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � TOPSOI L � ;.� �.o szo+i- 19 �-1-2-2 SILTY SAND(SM�,trace rootlets and gravel,orange to brown, moist to wet, loose N=3 � 19 z-3-5-5 � N=8 � 4.0 317+/- \ POORLY GRADED SAND WITH SILT(SP-SM),fine to medium grained,orange to � Z brown,wet, loose to medium dense 5 22 4-5-6-5 w N=11 Q J a � W 23 4-4-4-5 Q � N=8 0 8.0 313+/- o� Boring Terminafed af 8 Feef U Q � � F a c� � a ¢ > � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � Pipe was not installed ¢ a w � Advancement Method: See for a Notes: " 2 1/4"HSA description of field and laboratory procedures � used and additional data(If any). J Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-05-2019 Boring Completed:12-05-2019 � � 2.6 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. ��27 Page 1 of 1 PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0834°Longitude:-73.8111° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:320(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � FILL-POORLY GRADED SAND,trace rootlets,fine to medium grained, brown, moist to wet, loose to medium dense �$ 1-2-2-4 N=4 1 � 3.0 317+/_ 22 4-6-6-7 � '�'' `�3.5 FORMER TOPSOIL 316.5+/_ N=12 � SILTY SAND(SM),fine to medium grained,orange to brown,moist to wet, loose to � medium dense � 5 22 3-4-5-5 w N=9 Q Z J a � w Q 20 4-5-5-7 � N=10 0 8.0 312+/- o� Boring Terminafed af 8 Feef U Q � � F a c� � a ¢ > � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � Pipe was not installed ¢ a w � Advancement Method: See for a Notes: " 4 1/4"HSA description of field and laboratory procedures � used and additional data(If any). J Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-09-2019 Boring Completed:12-09-2019 � � 2.5 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 BORING LOG NO. ��2$ Page 1 of 1 PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0829°Longitude:-73.8112° _ �Q W � �� = a w� a > o� I � � Approximate Surface Elev.:321(Ft.)+/- o �m Q O �� DEPTH ELEVATION Ft. O � � FILL-SILTY SAND,containing rootlets and topsoil, brown, moist,very loose 23 �-1-2-2 N=3 2.0 319+/- � � FILL-POORLY GRADED SAND WITH SILT,fine to medium grained,orange to brown, wet, loose 19 2-3-3-5 � N=6 � 4.0 317+/- � '°'' `4.5 FORMER TOPSOIL 316.5+/- � POORLY GRADED SAND WITH SILT(SP-SM),fine to medium grained,orange to 5 23 8-7-9-� F brown,wet, medium dense N=16 a J � Z W Q 22 9-8-6-8 � N=14 0 8.0 313+/- o� Boring Terminafed af 8 Feef U Q � � F a c� � a ¢ > � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. Hammer Type: Automatic � Pipe was not installed ¢ a w � Advancement Method: See for a Notes: 0 4 1/4"HSA description of field and laboratory procedures Lo ed b JCH J used and additional data(If any). gg y Q � See for explanation of I o Abandonment Method: symbols and abbreviations. � Boring backfilled with soil cuttings upon completion. � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Boring Started:12-12-2019 Boring Completed:12-12-2019 � � 2.3 feet after boring completion �� m Drill Rig:Diedrich D-50 Driller:S.Morey � 594 Broadway F Watervliet,NY Project No.:JB195258 TEST PIT LOG NO. TP-1 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0853°Longitude:-73.8126° _ �Q W � �� a w� a > �t7n w � � Surface Elev.:321(Ft.) o �m Q � �� I DEPTH ELEVATION Ft. O � � TOPSOIL,4"topsoil POORLY GRADED SAND(SP�, brown,moist 2.0 319 POORLY GRADED SAND(SP), mottled brown and gray, moist to wet 0 N O F � � Z 5 w Q a � w � ¢ ¢ 0 i z O U Q � � F 10.0 311 ,�0 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See for a Notes: LL o description of field and laboratory procedures � used and additional data(If any). ¢ � See for explanation of I o Abandonment Method: symbols and abbreviations. � Backfilled with spoils � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 5 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galusha � 594 Broadway F Watervliet,NY Project No.:JB195258 TEST PIT LOG NO. TP-2 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0849°Longitude:-73.8132° _ �Q W � �� a w� a > �t7n w � � Surface Elev.:321(Ft.) o �m Q � �� I DEPTH ELEVATION Ft. O � � —. `.o� TOPSOIL,8"topsoil 320.5 FILL-SILT(ML�, brown, moist 1 3.0 318 � POORLY GRADED SAND(SP), brown,moist to wet 0 � � 5 w Q � J a � 2 w � ¢ ¢ 0 i z O U Q � � F 10.0 311 ,�0 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See for a Notes: LL o description of field and laboratory procedures � used and additional data(If any). ¢ � See for explanation of I o Abandonment Method: symbols and abbreviations. � Backfilled with spoils � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 6 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galusha � 594 Broadway F Watervliet,NY Project No.:JB195258 TEST PIT LOG NO. TP-3 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0849°Longitude:-73.8123° _ �Q W � �� a w� a > �t7n w � � Surface Elev.:321(Ft.) o �m Q � �� I DEPTH ELEVATION Ft. O � � — � 0.5 TOPSOIL,6"topsoil 320.5 � FILL-SANDY SILT(ML� 1.5 319.5 TOPSOI L POORLY GRADED SAND(SP�, mottled brown gray and red, moist 0 N O F � � 2 .' 5.0 316 5 F POORLY GRADED SAND(SP�,dark brown, moist to wet a J a � � ¢ � 0 8.0 313 o� Tesf Pif Terminafed af 8 Feef U Q � � F a c� � a ¢ > � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See for a Notes: LL o description of field and laboratory procedures � used and additional data(If any). ¢ � See for explanation of I o Abandonment Method: symbols and abbreviations. � Backfilled with spoils � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 5 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galusha � 594 Broadway F Watervliet,NY Project No.:JB195258 TEST PIT LOG NO. TP-4 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0847°Longitude:-73.8128° _ �Q W � �� a w� a > �t7n w � � Surface Elev.:321(Ft.) o �m Q � �� I DEPTH ELEVATION Ft. O � � — � 0.5 TOPSOIL,6"topsoil 320.5 FILL-SILT(ML�, brown, moist 1 3.0 318 � POORLY GRADED SAND(SP), mottled red brown and gray, moist to wet 0 � � � 5 w � Q J a � 2 w � ¢ ¢ 0 i z O U Q � � F 10.0 311 ,�0 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See for a Notes: LL o description of field and laboratory procedures � used and additional data(If any). ¢ � See for explanation of I o Abandonment Method: symbols and abbreviations. � Backfilled with spoils � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 5 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galusha � 594 Broadway F Watervliet,NY Project No.:JB195258 TEST PIT LOG NO. TP-5 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0843°Longitude:-73.8132° _ �Q W � �� a w� a > �t7n w � � Surface Elev.:321(Ft.) o �m Q � �� I DEPTH ELEVATION Ft. O � � TOPSOI L /J \A,�'' �\('i'�I �i'��i. �'3.0 318 � POORLY GRADED SAND(SP),dark brown, moist to wet 0 � � � 5 w Z ¢ 6.0 315 � POORLY GRADED SAND(SP�,grayish brown,wet w � ¢ � 0 8.0 313 o� Tesf Pif Terminafed af 8 Feef U Q � � F a c� � a ¢ > � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See for a Notes: LL o description of field and laboratory procedures � used and additional data(If any). ¢ � See for explanation of I o Abandonment Method: symbols and abbreviations. � Backfilled with spoils � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 5 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galusha � 594 Broadway F Watervliet,NY Project No.:JB195258 TEST PIT LOG NO. TP-6 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0844°Longitude:-73.8122° _ �Q W � �� a w� a > �t7n w � � Surface Elev.:320(Ft.) o �m Q � �� I DEPTH ELEVATION Ft. O � � — � 0.5 TOPSOIL,6"topsoil 319.5 POORLY GRADED SAND(SP�, mottled red, brown and gray, moist 3.0 317 � POORLY GRADED SAND(SP),gray, moist to wet 0 � Z � � 5 w Q � J a � w � ¢ � 0 8.0 312 o� Tesf Pif Terminafed af 8 Feef U Q � � F a c� � a ¢ > � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See for a Notes: LL o description of field and laboratory procedures � used and additional data(If any). ¢ � See for explanation of I o Abandonment Method: symbols and abbreviations. � Backfilled with spoils � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 6 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galusha � 594 Broadway F Watervliet,NY Project No.:JB195258 TEST PIT LOG NO. TP-7 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0838°Longitude:-73.813° _ �Q W � �� a w� a > �t7n w � � Surface Elev.:321(Ft.) o �m Q � �� I DEPTH ELEVATION Ft. O � � —. `.o$ TOPSOIL,9"topsoil 320 POORLY GRADED SAND(SP), brown,moist 3.0 318 � POORLY GRADED SAND(SP),gray, moist to wet 0 � � 5 w z : � Q J a � � � ¢ ¢ 0 i z O U Q � � F 10.0 311 ,�0 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See for a Notes: LL o description of field and laboratory procedures � used and additional data(If any). ¢ � See for explanation of I o Abandonment Method: symbols and abbreviations. � Backfilled with spoils � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 7 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galusha � 594 Broadway F Watervliet,NY Project No.:JB195258 TEST PIT LOG NO. TP-8 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0841°Longitude:-73.8126° _ �Q W � �� a w� a > �t7n w � � Surface Elev.:321(Ft.) o �m Q � �� I DEPTH ELEVATION Ft. O � � —. `.o$ TOPSOIL,4"topsoil 320 POORLY GRADED SAND(SP), mottled brown red and gray,moist 0 N � 4.0 317 � POORLY GRADED SAND(SP),gray, moist to wet � � 5 F z : Q J a � � w ¢ � ¢ 0 i z O U Q � � F 10.0 311 ,�0 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See for a Notes: LL o description of field and laboratory procedures � used and additional data(If any). ¢ � See for explanation of I o Abandonment Method: symbols and abbreviations. � Backfilled with spoils � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 7 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galusha � 594 Broadway F Watervliet,NY Project No.:JB195258 TEST PIT LOG NO. TP-9 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0838°Longitude:-73.8122° _ �Q W � �� a w� a > �t7n w � � Surface Elev.:321(Ft.) o �m Q � �� I DEPTH ELEVATION Ft. O � � — TOPSOIL,4"topsoil i'.'a i 1.0 320 POORLY GRADED SAND(SP�, mottled brown red and gray,moist 3.0 318 � POORLY GRADED SAND(SP),gray, moist to wet 0 � � 5 � z . Q J a � w � ¢ ¢ oi � z O U Q � � F 10.0 311 ,�0 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See for a Notes: LL o description of field and laboratory procedures � used and additional data(If any). ¢ � See for explanation of I o Abandonment Method: symbols and abbreviations. � Backfilled with spoils � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 8 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galusha � 594 Broadway F Watervliet,NY Project No.:JB195258 TEST PIT LOG NO. TP-10 Page 1 of� PROJECT: Allen Drive Apartments Final Study CLIENT: The NRP Group LLC Cleveland, Ohio I SITE: Allen Drive Saratoga Springs, New York � c� LOCATION See �� w ^ > 0 -- >0 a} " cn cn a U Latitude:43.0839°Longitude:-73.8112° _ �Q W � �� a w� a > �t7n w � � Surface Elev.:321(Ft.) o �m Q � �� I DEPTH ELEVATION Ft. O � � —. `.o$ TOPSOIL,4"topsoil 320 POORLY GRADED SAND(SP), mottled brown red and gray,moist 3.0 318 � POORLY GRADED SAND(SP),gray, moist to wet 0 � � 5 w z : � Q J a � � � ¢ ¢ 0 i z O U Q � � F 10.0 311 ,�0 a Tesf Pif Terminafed af 10 Feef c� � a ¢ > � 0 w J Q � N W m J > 0 Z � 0 J � Q � � 0 � F � 0 W � J Q Z � � 0 � 0 � LL 0 W Q Stratification lines are approximate.In-situ,the transition may be gradual. � ¢ a w � Advancement Method: See for a Notes: LL o description of field and laboratory procedures � used and additional data(If any). ¢ � See for explanation of I o Abandonment Method: symbols and abbreviations. � Backfilled with spoils � Elevations were interpolated from a topographic � WATER LEVEL OBSERVATIONS c� Test Pit Started:12-03-2018 Test Pit Completed:12-03-2018 � � Water entering excavation at 7 feet �� m Excavator:Volvlo EC-100 Operator:Tom Carter-Galusha � 594 Broadway F Watervliet,NY Project No.:JB195258 Attachment B Existing Conditions Watershed Map and HydroCAD Calculations G � -�3 _ � _ _ � �6�m��y � �Q J�.� N � y ` 1�.�°�� E v �� o. v ' t�� g - 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Pond routing by Stor-Ind method Subcatchment 1: Subcat 1 Runoff Area=12.649 ac 0.00% Impervious Runoff Depth=0.00" Flow Length=1,005' Tc=60.3 min CN=36 Runoff=0.00 cfs 0.000 af Subcatchment2: Subcat2 RunoffArea=0.323 ac 15.33% Impervious Runoff Depth=0.00" Tc=6.0 min CN=48 Runoff=0.00 cfs 0.000 af Subcatchment3: Subcat3 RunoffArea=0.478 ac 0.00% Impervious Runoff Depth=0.00" Flow Length=79' Slope=0.0700 '/' Tc=12.0 min CN=30 Runoff=0.00 cfs 0.000 af Subcatchment4: Subcat4 RunoffArea=0.971 ac 0.00% Impervious Runoff Depth=0.00" Flow Length=140' Slope=0.0100 '/' Tc=15.6 min CN=39 Runoff=0.00 cfs 0.000 af Link AP-1: AP-1 Inflow=0.00 cfs 0.000 af Primary=0.00 cfs 0.000 af Link AP-2: AP-2 Inflow=0.00 cfs 0.000 af Primary=0.00 cfs 0.000 af Link AP-3: AP-3 Inflow=0.00 cfs 0.000 af Primary=0.00 cfs 0.000 af Total Runoff Area = 14.422 ac Runoff Volume = 0.000 af Average Runoff Depth = 0.00" 99.66% Pervious = 14.372 ac 0.34% Impervious = 0.050 ac Pre Development Type 1124-hr 1-yr Rainfa11=2.15" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 6 Summary for Subcatchment 1: Subcat 1 Runoff = 0.00 cfs @ 5.00 hrs, Volume= 0.000 af, Depth= 0.00" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 1-yr Rainfall=2.15" Area (ac) CN Description 8.316 39 >75% Grass cover, Good, HSG A 4.333 30 Woods, Good, HSG A 12.649 36 Weighted Average 12.649 36 100.00% Pervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 20.3 100 0.0300 0.08 Sheet Flow, Woods: Light underbrush n= 0.400 P2= 2.60" 31.5 725 0.0030 0.38 Shallow Concentrated Flow, Short Grass Pasture Kv= 7.0 fps 8.5 180 0.0050 0.35 Shallow Concentrated Flow, Woodland Kv= 5.0 fps 60.3 1,005 Total Summary for Subcatchment 2: Subcat 2 Runoff = 0.00 cfs @ 5.00 hrs, Volume= 0.000 af, Depth= 0.00" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 1-yr Rainfall=2.15" Area (ac) CN Description 0.274 39 >75% Grass cover, Good, HSG A 0.050 98 Paved parking, HSG A 0.323 48 Weighted Average 0.274 39 84.67% Pervious Area 0.050 98 15.33% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 3: Subcat 3 Runoff = 0.00 cfs @ 5.00 hrs, Volume= 0.000 af, Depth= 0.00" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 1-yr Rainfall=2.15" Pre Development Type 1124-hr 1-yr Rainfa11=2.15" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 7 Area (ac) CN Description 0.001 39 >75% Grass cover, Good, HSG A 0.477 30 Woods, Good, HSG A 0.478 30 Weighted Average 0.478 30 100.00% Pervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 12.0 79 0.0700 0.11 Sheet Flow, Woods: Light underbrush n= 0.400 P2= 2.60" Summary for Subcatchment 4: Subcat 4 Runoff = 0.00 cfs @ 5.00 hrs, Volume= 0.000 af, Depth= 0.00" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 1-yr Rainfall=2.15" Area (ac) CN Description 0.971 39 >75% Grass cover, Good, HSG A 0.971 39 100.00% Pervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 14.3 100 0.0100 0.12 Sheet Flow, Grass: Short n= 0.150 P2= 2.60" 1.3 40 0.0100 0.50 Shallow Concentrated Flow, Woodland Kv= 5.0 fps 15.6 140 Total Summary for Link AP-1: AP-1 Inflow Area = 12.649 ac, 0.00% Impervious, Inflow Depth = 0.00" for 1-yr event Inflow = 0.00 cfs @ 5.00 hrs, Volume= 0.000 af Primary = 0.00 cfs @ 5.00 hrs, Volume= 0.000 af, Atten= 0%, Lag= 0.0 min Primary outflow= Inflow, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Summary for Link AP-2: AP-2 Inflow Area = 0.478 ac, 0.00% Impervious, Inflow Depth = 0.00" for 1-yr event Inflow = 0.00 cfs @ 5.00 hrs, Volume= 0.000 af Primary = 0.00 cfs @ 5.00 hrs, Volume= 0.000 af, Atten= 0%, Lag= 0.0 min Primary outflow= Inflow, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Pre Development Type 1124-hr 1-yr Rainfa11=2.15" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 8 Summary for Link AP-3: AP-3 Inflow Area = 1.294 ac, 3.83% Impervious, Inflow Depth = 0.00" for 1-yr event Inflow = 0.00 cfs @ 5.00 hrs, Volume= 0.000 af Primary = 0.00 cfs @ 5.00 hrs, Volume= 0.000 af, Atten= 0%, Lag= 0.0 min Primary outflow= Inflow, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Pre Development Type 1124-hr 10-yr Rainfa11=3.75" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 9 Time span=5.00-20.00 hrs, dt=0.05 hrs, 301 points Runoff by SCS TR-20 method, UH=SCS, Weighted-CN Reach routing by Stor-Ind+Trans method - Pond routing by Stor-Ind method Subcatchment 1: Subcat 1 Runoff Area=12.649 ac 0.00% Impervious Runoff Depth>0.00" Flow Length=1,005' Tc=60.3 min CN=36 Runoff=0.00 cfs 0.000 af Subcatchment2: Subcat2 RunoffArea=0.323 ac 15.33% Impervious Runoff Depth>0.16" Tc=6.0 min CN=48 Runoff=0.03 cfs 0.004 af Subcatchment3: Subcat3 RunoffArea=0.478 ac 0.00% Impervious Runoff Depth=0.00" Flow Length=79' Slope=0.0700 '/' Tc=12.0 min CN=30 Runoff=0.00 cfs 0.000 af Subcatchment4: Subcat4 RunoffArea=0.971 ac 0.00% Impervious Runoff Depth>0.01" Flow Length=140' Slope=0.0100 '/' Tc=15.6 min CN=39 Runoff=0.00 cfs 0.001 af Link AP-1: AP-1 Inflow=0.00 cfs 0.000 af Primary=0.00 cfs 0.000 af Link AP-2: AP-2 Inflow=0.00 cfs 0.000 af Primary=0.00 cfs 0.000 af Link AP-3: AP-3 Inflow=0.03 cfs 0.005 af Primary=0.03 cfs 0.005 af Total Runoff Area = 14.422 ac Runoff Volume = 0.005 af Average Runoff Depth = 0.00" 99.66% Pervious = 14.372 ac 0.34% Impervious = 0.050 ac Pre Development Type 1124-hr 10-yr Rainfa11=3.75" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 10 Summary for Subcatchment 1: Subcat 1 Runoff = 0.00 cfs @ 20.00 hrs, Volume= 0.000 af, Depth> 0.00" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 10-yr Rainfall=3.75" Area (ac) CN Description 8.316 39 >75% Grass cover, Good, HSG A 4.333 30 Woods, Good, HSG A 12.649 36 Weighted Average 12.649 36 100.00% Pervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 20.3 100 0.0300 0.08 Sheet Flow, Woods: Light underbrush n= 0.400 P2= 2.60" 31.5 725 0.0030 0.38 Shallow Concentrated Flow, Short Grass Pasture Kv= 7.0 fps 8.5 180 0.0050 0.35 Shallow Concentrated Flow, Woodland Kv= 5.0 fps 60.3 1,005 Total Summary for Subcatchment 2: Subcat 2 Runoff = 0.03 cfs @ 12.05 hrs, Volume= 0.004 af, Depth> 0.16" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 10-yr Rainfall=3.75" Area (ac) CN Description 0.274 39 >75% Grass cover, Good, HSG A 0.050 98 Paved parking, HSG A 0.323 48 Weighted Average 0.274 39 84.67% Pervious Area 0.050 98 15.33% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 3: Subcat 3 Runoff = 0.00 cfs @ 5.00 hrs, Volume= 0.000 af, Depth= 0.00" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 10-yr Rainfall=3.75" Pre Development Type 1124-hr 10-yr Rainfa11=3.75" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 11 Area (ac) CN Description 0.001 39 >75% Grass cover, Good, HSG A 0.477 30 Woods, Good, HSG A 0.478 30 Weighted Average 0.478 30 100.00% Pervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 12.0 79 0.0700 0.11 Sheet Flow, Woods: Light underbrush n= 0.400 P2= 2.60" Summary for Subcatchment 4: Subcat 4 Runoff = 0.00 cfs @ 19.00 hrs, Volume= 0.001 af, Depth> 0.01" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 10-yr Rainfall=3.75" Area (ac) CN Description 0.971 39 >75% Grass cover, Good, HSG A 0.971 39 100.00% Pervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 14.3 100 0.0100 0.12 Sheet Flow, Grass: Short n= 0.150 P2= 2.60" 1.3 40 0.0100 0.50 Shallow Concentrated Flow, Woodland Kv= 5.0 fps 15.6 140 Total Summary for Link AP-1: AP-1 Inflow Area = 12.649 ac, 0.00% Impervious, Inflow Depth > 0.00" for 10-yr event Inflow = 0.00 cfs @ 20.00 hrs, Volume= 0.000 af Primary = 0.00 cfs @ 20.00 hrs, Volume= 0.000 af, Atten= 0%, Lag= 0.0 min Primary outflow= Inflow, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Summary for Link AP-2: AP-2 Inflow Area = 0.478 ac, 0.00% Impervious, Inflow Depth = 0.00" for 10-yr event Inflow = 0.00 cfs @ 5.00 hrs, Volume= 0.000 af Primary = 0.00 cfs @ 5.00 hrs, Volume= 0.000 af, Atten= 0%, Lag= 0.0 min Primary outflow= Inflow, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Pre Development Type 1124-hr 10-yr Rainfa11=3.75" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 12 Summary for Link AP-3: AP-3 Inflow Area = 1.294 ac, 3.83% Impervious, Inflow Depth > 0.05" for 10-yr event Inflow = 0.03 cfs @ 12.05 hrs, Volume= 0.005 af Primary = 0.03 cfs @ 12.05 hrs, Volume= 0.005 af, Atten= 0%, Lag= 0.0 min Primary outflow= Inflow, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Pre Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 1 Time span=5.00-20.00 hrs, dt=0.05 hrs, 301 points Runoff by SCS TR-20 method, UH=SCS, Weighted-CN Reach routing by Stor-Ind+Trans method - Pond routing by Stor-Ind method Subcatchment 1: Subcat 1 Runoff Area=12.649 ac 0.00% Impervious Runoff Depth>0.26" Flow Length=1,005' Tc=60.3 min CN=36 Runoff=0.76 cfs 0.270 af Subcatchment2: Subcat2 RunoffArea=0.323 ac 15.33% Impervious Runoff Depth>0.96" Tc=6.0 min CN=48 Runoff=0.54 cfs 0.026 af Subcatchment3: Subcat3 RunoffArea=0.478 ac 0.00% Impervious Runoff Depth>0.06" Flow Length=79' Slope=0.0700 '/' Tc=12.0 min CN=30 Runoff=0.00 cfs 0.002 af Subcatchment4: Subcat4 RunoffArea=0.971 ac 0.00% Impervious Runoff Depth>0.41" Flow Length=140' Slope=0.0100 '/' Tc=15.6 min CN=39 Runoff=0.25 cfs 0.033 af Link AP-1: AP-1 Inflow=0.76 cfs 0.270 af Primary=0.76 cfs 0.270 af Link AP-2: AP-2 Inflow=0.00 cfs 0.002 af Primary=0.00 cfs 0.002 af Link AP-3: AP-3 Inflow=0.60 cfs 0.059 af Primary=0.60 cfs 0.059 af Total Runoff Area = 14.422 ac Runoff Volume = 0.332 af Average Runoff Depth = 0.28" 99.66% Pervious = 14.372 ac 0.34% Impervious = 0.050 ac Pre Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 2 Summary for Subcatchment 1: Subcat 1 Runoff = 0.76 cfs @ 13.08 hrs, Volume= 0.270 af, Depth> 0.26" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 8.316 39 >75% Grass cover, Good, HSG A 4.333 30 Woods, Good, HSG A 12.649 36 Weighted Average 12.649 36 100.00% Pervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 20.3 100 0.0300 0.08 Sheet Flow, Woods: Light underbrush n= 0.400 P2= 2.60" 31.5 725 0.0030 0.38 Shallow Concentrated Flow, Short Grass Pasture Kv= 7.0 fps 8.5 180 0.0050 0.35 Shallow Concentrated Flow, Woodland Kv= 5.0 fps 60.3 1,005 Total Summary for Subcatchment 2: Subcat 2 Runoff = 0.54 cfs @ 11.99 hrs, Volume= 0.026 af, Depth> 0.96" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.274 39 >75% Grass cover, Good, HSG A 0.050 98 Paved parking, HSG A 0.323 48 Weighted Average 0.274 39 84.67% Pervious Area 0.050 98 15.33% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 3: Subcat 3 Runoff = 0.00 cfs @ 15.45 hrs, Volume= 0.002 af, Depth> 0.06" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Pre Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 3 Area (ac) CN Description 0.001 39 >75% Grass cover, Good, HSG A 0.477 30 Woods, Good, HSG A 0.478 30 Weighted Average 0.478 30 100.00% Pervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 12.0 79 0.0700 0.11 Sheet Flow, Woods: Light underbrush n= 0.400 P2= 2.60" Summary for Subcatchment 4: Subcat 4 Runoff = 0.25 cfs @ 12.16 hrs, Volume= 0.033 af, Depth> 0.41" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.971 39 >75% Grass cover, Good, HSG A 0.971 39 100.00% Pervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 14.3 100 0.0100 0.12 Sheet Flow, Grass: Short n= 0.150 P2= 2.60" 1.3 40 0.0100 0.50 Shallow Concentrated Flow, Woodland Kv= 5.0 fps 15.6 140 Total Summary for Link AP-1: AP-1 Inflow Area = 12.649 ac, 0.00% Impervious, Inflow Depth > 0.26" for 100-yr event Inflow = 0.76 cfs @ 13.08 hrs, Volume= 0.270 af Primary = 0.76 cfs @ 13.08 hrs, Volume= 0.270 af, Atten= 0%, Lag= 0.0 min Primary outflow= Inflow, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Summary for Link AP-2: AP-2 Inflow Area = 0.478 ac, 0.00% Impervious, Inflow Depth > 0.06" for 100-yr event Inflow = 0.00 cfs @ 15.45 hrs, Volume= 0.002 af Primary = 0.00 cfs @ 15.45 hrs, Volume= 0.002 af, Atten= 0%, Lag= 0.0 min Primary outflow= Inflow, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Pre Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 4 Summary for Link AP-3: AP-3 Inflow Area = 1.294 ac, 3.83% Impervious, Inflow Depth > 0.55" for 100-yr event Inflow = 0.60 cfs @ 12.01 hrs, Volume= 0.059 af Primary = 0.60 cfs @ 12.01 hrs, Volume= 0.059 af, Atten= 0%, Lag= 0.0 min Primary outflow= Inflow, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Attachment C Proposed Conditions Watershed Map, HydroCAD Calculations & Frozen Conditions G � �� -= � - - �� v J�fi�mm� J z _ �Q m� _ � � v � � �..�e�P�� ; •- a� ' m� � ' a�v rC p-o �-°' v ` v �� t�. __�� a � v- _ a'N ? � a � � � �q F _ a _ ' +' m�o - N �� <'� . - `:Z��m 'F e� 17�i �i / � � I - � � �� , u' '� . ___' ., e� - _ �----f�� -.� � a �n �, � a h � /� ON�a� =s.�a—J�c a � I �O � � �� J I � I � /A�"y _ = __ _ %� k°� ^ / � � � `_�- i `� L— � � � ��' � � ,, ^ � �� i �, _ ,� � � - � � � � G �v — � � — — � � ,� � , ' , — a � ° ,-_ � � � � � . �� _ � � �� Q � i� � i ti � ' i i � ' ��// S I _ � � a � sr � ;�, � a � � T-i 7-r n; ^,,,� � - � � ,� O - � � -- � ��'�— — � — — — > ['� � a _ �❑ � -,C '�� o , � � z o � !�+ '�� ——— —O ' — O �ry� a � ��' � I � 4 R � � �! �e n ' � �� ` � � s -- � /�' � ��L J., � ` � � �� '� � � s �� - - -- _ � � � �� , - I u � I � I,ry� I �� I I I � � I M� \ o � � � / d` � I I,� I � I I I II� � �� "� � _ I � O � ' �� '��—��— � � � � � � �� m,i ��zz —� � � �� — — s � � -_ � �,� ��-�� I � � � -' / � I T Js= �,�� F �� s \'O a 3N c� ^ � `` ,.y� b�l/bl O .K _�� =5,\ cec�`� � sc I I \�\ tte �q � \h� � `` N\ � ��} �_�� W ^ N a �\=�,`�°\ � AP-1 A�1 SMP-1 Wet Pond� \ � ce �Fore ay 1 17 13R � 1 P � 14R -Z ,�Z � S le 18"Culvert S afe� O \ \ Subcat 12 � ,�� Subcat 1 \ \ 11 O � �� Subcat 11 Subcat 5 SMP-4 �5 O� SMP-2 Porous-�avement Subcat 15 Subcat 2 Porous Pavement I O O Su�at 7 Subcat 6 SMP- O ,�o Porous Pavement O Sub at 4 Sub�t 10 Su�at 8 SMP-6 SMP- SMP-3 13 Porous Pavement Porous Pavement Porous Pavement Subcat 1� O AP-2 Su�at 9 AP-2 14 SMP-8 O Subcat 14 Porous Pavement Subcat 3 AP-3 AP-3 Subcat Reach on Link Routing Diagram for Post Development Prepared by The LA Group, Printed 5/12/2020 HydroCADO 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Post Development Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 2 Area Listing (all nodes) Area CN Description (acres) (subcatchment-numbers) 6.829 39 >75% Grass cover, Good, HSG A (1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15) 6.671 98 Paved parking, HSG A (1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 14, 15) 0.921 30 Woods, Good, HSG A (1, 2, 3, 4, 13, 14) 14.421 66 TOTAL AREA Post Development Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 3 Soil Listing (all nodes) Area Soil Subcatchment (acres) Group Numbers 14.421 HSG A 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 0.000 HSG B 0.000 HSG C 0.000 HSG D 0.000 Other 14.421 TOTAL AREA Post Development Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 4 Ground Covers (all nodes) HSG-A HSG-B HSG-C HSG-D Other Total Ground Subcatchment (acres) (acres) (acres) (acres) (acres) (acres) Cover Numbers 6.829 0.000 0.000 0.000 0.000 6.829 >75% Grass cover, Good 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 6.671 0.000 0.000 0.000 0.000 6.671 Paved parking 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 14, 15 0.921 0.000 0.000 0.000 0.000 0.921 Woods, Good 1, 2, 3, 4, 13, 14 14.421 0.000 0.000 0.000 0.000 14.421 TOTAL AREA Post Development Type 1124-hr 1-yr Rainfa11=2.15" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 5 Time span=5.00-20.00 hrs, dt=0.05 hrs, 301 points Runoff by SCS TR-20 method, UH=SCS, Weighted-CN Reach routing by Stor-Ind+Trans method - Pond routing by Stor-Ind method Subcatchment 1: Subcat 1 Runoff Area=4.502 ac 15.99% Impervious Runoff Depth=0.00" Flow Length=144' Tc=9.9 min CN=47 Runoff=0.00 cfs 0.000 af Subcatchment2: Subcat2 RunoffArea=0.357 ac 57.39% Impervious Runoff Depth>0.31" Tc=6.0 min CN=72 Runoff=0.19 cfs 0.009 af Subcatchment3: Subcat3 RunoffArea=0.375 ac 7.35% Impervious Runoff Depth=0.00" Tc=6.0 min CN=43 Runoff=0.00 cfs 0.000 af Subcatchment4: Subcat4 RunoffArea=2.514 ac 70.38% Impervious Runoff Depth>0.63" Tc=6.0 min CN=81 Runoff=3.04 cfs 0.133 af Subcatchment5: Subcat5 RunoffArea=0.322 ac 82.17% Impervious Runoff Depth>0.94" Tc=6.0 min CN=87 Runoff=0.57 cfs 0.025 af Subcatchment6: Subcat6 RunoffArea=0.561 ac 83.11% Impervious Runoff Depth>1.00" Tc=6.0 min CN=88 Runoff=1.05 cfs 0.047 af Subcatchment7: Subcat7 RunoffArea=0.171 ac 72.66% Impervious Runoff Depth>0.68" Tc=6.0 min CN=82 Runoff=0.22 cfs 0.010 af Subcatchment8: Subcat8 RunoffArea=0.516 ac 77.63% Impervious Runoff Depth>0.83" Tc=6.0 min CN=85 Runoff=0.82 cfs 0.036 af Subcatchment9: Subcat9 RunoffArea=0.124 ac 92.28% Impervious Runoff Depth>1.36" Tc=6.0 min CN=93 Runoff=0.30 cfs 0.014 af Subcatchment 10: Subcat 10 Runoff Area=1.613 ac 77.91% Impervious Runoff Depth>0.83" Tc=6.0 min CN=85 Runoff=2.55 cfs 0.111 af Subcatchment11: Subcat 11 RunoffArea=1.410 ac 49.44% Impervious Runoff Depth>0.21" Tc=6.0 min CN=68 Runoff=0.43 cfs 0.025 af Subcatchment 12: Subcat 12 Runoff Area=0.347 ac 0.00% Impervious Runoff Depth=0.00" Tc=6.0 min CN=39 Runoff=0.00 cfs 0.000 af Subcatchment 13: Subcat 13 Runoff Area=0.223 ac 0.00% Impervious Runoff Depth=0.00" Flow Length=79' Slope=0.0700 '/' Tc=12.0 min CN=32 Runoff=0.00 cfs 0.000 af Subcatchment 14: Subcat 14 Runoff Area=0.557 ac 0.22% Impervious Runoff Depth=0.00" Tc=6.0 min CN=37 Runoff=0.00 cfs 0.000 af Subcatchment 15: Subcat 15 Runoff Area=0.830 ac 75.26% Impervious Runoff Depth>0.73" Tc=6.0 min CN=83 Runoff=1.15 cfs 0.050 af Reach 13R: Swale Avg. Flow Depth=0.05' Max Ve1=0.08 fps Inflow=0.43 cfs 0.025 af n=0.150 L=531.0' S=0.0038 '/' Capacity=36.80 cfs Outflow=0.05 cfs 0.018 af Post Development Type 1124-hr 1-yr Rainfa11=2.15" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 6 Reach 14R: Swale Avg. Flow Depth=0.20' Max Ve1=0.23 fps Inflow=0.57 cfs 0.043 af n=0.150 L=150.0' S=0.0053 '/' Capacity=38.79 cfs Outflow=0.38 cfs 0.042 af Pond 1P: 18" Culvert Peak Elev=321.61' Inflow=0.05 cfs 0.018 af 18.0" Round Culvert n=0.012 L=40.0' S=0.0050 '/' Outflow=0.05 cfs 0.018 af Pond 16P: CB-1 Peak Elev=323.47' Inflow=1.15 cfs 0.050 af 15.0" Round Culvert n=0.012 L=110.0' S=0.0050 '/' Outflow=1.15 cfs 0.050 af Pond 17P: CB-2 Peak Elev=322.81' Inflow=1.15 cfs 0.050 af 15.0" Round Culvert n=0.012 L=115.0' S=0.0057 '/' Outflow=1.15 cfs 0.050 af Pond 21 P: Forebay 1 Peak Elev=321.57' Storage=18,038 cf Inflow=1.15 cfs 0.050 af Outflow=0.49 cfs 0.049 af Pond SMP-1:Wet Pond Peak Elev=319.66' Storage=54,462 cf Inflow=0.79 cfs 0.091 af Outflow=0.00 cfs 0.000 af Pond SMP-2: Porous Pavement Peak Elev=321.77' Storage=1 cf Inflow=0.19 cfs 0.009 af Outflow=0.19 cfs 0.009 af Pond SMP-3: Porous Pavement Peak Elev=321.98' Storage=87 cf Inflow=3.04 cfs 0.133 af Outflow=3.03 cfs 0.133 af Pond SMP-4: Porous Pavement Peak Elev=322.13' Storage=171 cf Inflow=1.05 cfs 0.047 af Discarded=0.66 cfs 0.047 af Secondary=0.00 cfs 0.000 af Outflow=0.66 cfs 0.047 af Pond SMP-5: Porous Pavement Peak Elev=322.82' Storage=2 cf Inflow=0.22 cfs 0.010 af Outflow=0.22 cfs 0.010 af Pond SMP-6: Porous Pavement Peak Elev=322.18' Storage=80 cf Inflow=2.55 cfs 0.111 af Outflow=2.54 cfs 0.111 af Pond SMP-7: Porous Pavement Peak EIev=321.02' Storage=23 cf Inflow=0.82 cfs 0.036 af Outflow=0.81 cfs 0.036 af Pond SMP-8: Porous Pavement Peak Elev=321.68' Storage=4 cf Inflow=0.30 cfs 0.014 af Outflow=0.30 cfs 0.014 af Link AP-1: AP-1 Inflow=0.00 cfs 0.000 af Primary=0.00 cfs 0.000 af Link AP-2: AP-2 Inflow=0.00 cfs 0.000 af Primary=0.00 cfs 0.000 af Link AP-3: AP-3 Inflow=0.00 cfs 0.000 af Primary=0.00 cfs 0.000 af Total Runoff Area = 14.421 ac Runoff Volume = 0.459 af Average Runoff Depth = 0.38" 53.74% Pervious = 7.750 ac 46.26% Impervious = 6.671 ac Post Development Type 1124-hr 10-yr Rainfa11=3.75" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 7 Time span=5.00-20.00 hrs, dt=0.05 hrs, 301 points Runoff by SCS TR-20 method, UH=SCS, Weighted-CN Reach routing by Stor-Ind+Trans method - Pond routing by Stor-Ind method Subcatchment 1: Subcat 1 Runoff Area=4.502 ac 15.99% Impervious Runoff Depth>0.14" Flow Length=144' Tc=9.9 min CN=47 Runoff=0.16 cfs 0.051 af Subcatchment2: Subcat2 RunoffArea=0.357 ac 57.39% Impervious Runoff Depth>1.16" Tc=6.0 min CN=72 Runoff=0.79 cfs 0.035 af Subcatchment3: Subcat3 RunoffArea=0.375 ac 7.35% Impervious Runoff Depth>0.06" Tc=6.0 min CN=43 Runoff=0.00 cfs 0.002 af Subcatchment4: Subcat4 RunoffArea=2.514 ac 70.38% Impervious Runoff Depth>1.76" Tc=6.0 min CN=81 Runoff=8.27 cfs 0.369 af Subcatchment5: Subcat5 RunoffArea=0.322 ac 82.17% Impervious Runoff Depth>2.24" Tc=6.0 min CN=87 Runoff=1.31 cfs 0.060 af Subcatchment6: Subcat6 RunoffArea=0.561 ac 83.11% Impervious Runoff Depth>2.33" Tc=6.0 min CN=88 Runoff=2.34 cfs 0.109 af Subcatchment7: Subcat7 RunoffArea=0.171 ac 72.66% Impervious Runoff Depth>1.84" Tc=6.0 min CN=82 Runoff=0.59 cfs 0.026 af Subcatchment8: Subcat8 RunoffArea=0.516 ac 77.63% Impervious Runoff Depth>2.07" Tc=6.0 min CN=85 Runoff=1.96 cfs 0.089 af Subcatchment9: Subcat9 RunoffArea=0.124 ac 92.28% Impervious Runoff Depth>2.79" Tc=6.0 min CN=93 Runoff=0.59 cfs 0.029 af Subcatchment 10: Subcat 10 Runoff Area=1.613 ac 77.91% Impervious Runoff Depth>2.07" Tc=6.0 min CN=85 Runoff=6.13 cfs 0.279 af Subcatchment 11: Subcat 11 Runoff Area=1.410 ac 49.44% Impervious Runoff Depth>0.94" Tc=6.0 min CN=68 Runoff=2.51 cfs 0.110 af Subcatchment12: Subcat 12 RunoffArea=0.347 ac 0.00% Impervious Runoff Depth>0.01" Tc=6.0 min CN=39 Runoff=0.00 cfs 0.000 af Subcatchment 13: Subcat 13 Runoff Area=0.223 ac 0.00% Impervious Runoff Depth=0.00" Flow Length=79' Slope=0.0700 '/' Tc=12.0 min CN=32 Runoff=0.00 cfs 0.000 af Subcatchment 14: Subcat 14 Runoff Area=0.557 ac 0.22% Impervious Runoff Depth>0.00" Tc=6.0 min CN=37 Runoff=0.00 cfs 0.000 af Subcatchment15: Subcat 15 RunoffArea=0.830 ac 75.26% Impervious Runoff Depth>1.91" Tc=6.0 min CN=83 Runoff=2.94 cfs 0.132 af Reach 13R: Swale Avg. Flow Depth=0.24' Max Ve1=0.21 fps Inflow=2.51 cfs 0.111 af n=0.150 L=531.0' S=0.0038 '/' Capacity=36.80 cfs Outflow=0.64 cfs 0.101 af Post Development Type 1124-hr 10-yr Rainfa11=3.75" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 8 Reach 14R: Swale Avg. Flow Depth=0.35' Max Ve1=0.33 fps Inflow=1.31 cfs 0.161 af n=0.150 L=150.0' S=0.0053 '/' Capacity=38.79 cfs Outflow=1.00 cfs 0.158 af Pond 1P: 18" Culvert Peak Elev=321.91' Inflow=0.64 cfs 0.101 af 18.0" Round Culvert n=0.012 L=40.0' S=0.0050 '/' Outflow=0.64 cfs 0.101 af Pond 16P: CB-1 Peak Elev=323.89' Inflow=2.94 cfs 0.132 af 15.0" Round Culvert n=0.012 L=110.0' S=0.0050 '/' Outflow=2.94 cfs 0.132 af Pond 17P: CB-2 Peak Elev=323.21' Inflow=2.94 cfs 0.132 af 15.0" Round Culvert n=0.012 L=115.0' S=0.0057 '/' Outflow=2.94 cfs 0.132 af Pond 21 P: Forebay 1 Peak Elev=321.67' Storage=18,935 cf Inflow=2.95 cfs 0.183 af Outflow=1.78 cfs 0.180 af Pond SMP-1:Wet Pond Peak EIev=320.08' Storage=65,197 cf Inflow=2.58 cfs 0.338 af Outflow=0.00 cfs 0.000 af Pond SMP-2: Porous Pavement Peak Elev=321.77' Storage=6 cf Inflow=0.79 cfs 0.035 af Outflow=0.80 cfs 0.035 af Pond SMP-3: Porous Pavement Peak EIev=322.10' Storage=1,701 cf Inflow=8.27 cfs 0.369 af Outflow=4.54 cfs 0.369 af Pond SMP-4: Porous Pavement Peak Elev=322.82' Storage=1,109 cf Inflow=2.34 cfs 0.109 af Discarded=0.66 cfs 0.109 af Secondary=0.00 cfs 0.000 af Outflow=0.66 cfs 0.109 af Pond SMP-5: Porous Pavement Peak Elev=322.87' Storage=27 cf Inflow=0.59 cfs 0.026 af Outflow=0.49 cfs 0.026 af Pond SMP-6: Porous Pavement Peak Elev=322.37' Storage=1,714 cf Inflow=6.13 cfs 0.279 af Outflow=2.78 cfs 0.280 af Pond SMP-7: Porous Pavement Peak Elev=321.58' Storage=613 cf Inflow=1.96 cfs 0.089 af Outflow=0.82 cfs 0.089 af Pond SMP-8: Porous Pavement Peak Elev=321.73' Storage=35 cf Inflow=0.59 cfs 0.029 af Outflow=0.47 cfs 0.029 af Link AP-1: AP-1 Inflow=0.00 cfs 0.000 af Primary=0.00 cfs 0.000 af Link AP-2: AP-2 Inflow=0.00 cfs 0.000 af Primary=0.00 cfs 0.000 af Link AP-3: AP-3 Inflow=0.00 cfs 0.002 af Primary=0.00 cfs 0.002 af Total Runoff Area = 14.421 ac Runoff Volume = 1.292 af Average Runoff Depth = 1.08" 53.74% Pervious = 7.750 ac 46.26% Impervious = 6.671 ac Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 1 Time span=5.00-20.00 hrs, dt=0.05 hrs, 301 points Runoff by SCS TR-20 method, UH=SCS, Weighted-CN Reach routing by Stor-Ind+Trans method - Pond routing by Stor-Ind method Subcatchment 1: Subcat 1 Runoff Area=4.502 ac 15.99% Impervious Runoff Depth>0.89" Flow Length=144' Tc=9.9 min CN=47 Runoff=5.68 cfs 0.333 af Subcatchment2: Subcat2 RunoffArea=0.357 ac 57.39% Impervious Runoff Depth>2.91" Tc=6.0 min CN=72 Runoff=1.94 cfs 0.086 af Subcatchment3: Subcat3 RunoffArea=0.375 ac 7.35% Impervious Runoff Depth>0.64" Tc=6.0 min CN=43 Runoff=0.36 cfs 0.020 af Subcatchment4: Subcat4 RunoffArea=2.514 ac 70.38% Impervious Runoff Depth>3.79" Tc=6.0 min CN=81 Runoff=17.17 cfs 0.794 af Subcatchment5: Subcat5 RunoffArea=0.322 ac 82.17% Impervious Runoff Depth>4.41" Tc=6.0 min CN=87 Runoff=2.46 cfs 0.118 af Subcatchment6: Subcat6 RunoffArea=0.561 ac 83.11% Impervious Runoff Depth>4.52" Tc=6.0 min CN=88 Runoff=4.36 cfs 0.211 af Subcatchment7: Subcat7 RunoffArea=0.171 ac 72.66% Impervious Runoff Depth>3.89" Tc=6.0 min CN=82 Runoff=1.19 cfs 0.056 af Subcatchment8: Subcat8 RunoffArea=0.516 ac 77.63% Impervious Runoff Depth>4.20" Tc=6.0 min CN=85 Runoff=3.81 cfs 0.181 af Subcatchment9: Subcat9 RunoffArea=0.124 ac 92.28% Impervious Runoff Depth>5.03" Tc=6.0 min CN=93 Runoff=1.03 cfs 0.052 af Subcatchment 10: Subcat 10 Runoff Area=1.613 ac 77.91% Impervious Runoff Depth>4.20" Tc=6.0 min CN=85 Runoff=11.92 cfs 0.565 af Subcatchment 11: Subcat 11 Runoff Area=1.410 ac 49.44% Impervious Runoff Depth>2.54" Tc=6.0 min CN=68 Runoff=6.75 cfs 0.299 af Subcatchment 12: Subcat 12 Runoff Area=0.347 ac 0.00% Impervious Runoff Depth>0.42" Tc=6.0 min CN=39 Runoff=0.15 cfs 0.012 af Subcatchment 13: Subcat 13 Runoff Area=0.223 ac 0.00% Impervious Runoff Depth>0.12" Flow Length=79' Slope=0.0700 '/' Tc=12.0 min CN=32 Runoff=0.00 cfs 0.002 af Subcatchment 14: Subcat 14 Runoff Area=0.557 ac 0.22% Impervious Runoff Depth>0.32" Tc=6.0 min CN=37 Runoff=0.12 cfs 0.015 af Subcatchment 15: Subcat 15 Runoff Area=0.830 ac 75.26% Impervious Runoff Depth>4.00" Tc=6.0 min CN=83 Runoff=5.91 cfs 0.276 af Reach 13R: Swale Avg. Flow Depth=0.55' Max Ve1=0.35 fps Inflow=6.93 cfs 0.311 af n=0.150 L=531.0' S=0.0038 '/' Capacity=36.80 cfs Outflow=2.84 cfs 0.295 af Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 2 Reach 14R: Swale Avg. Flow Depth=0.63' Max Ve1=0.47 fps Inflow=3.19 cfs 0.442 af n=0.150 L=150.0' S=0.0053 '/' Capacity=38.79 cfs Outflow=2.91 cfs 0.438 af Pond 1P: 18" Culvert Peak Elev=322.42' Inflow=2.84 cfs 0.295 af 18.0" Round Culvert n=0.012 L=40.0' S=0.0050 '/' Outflow=2.84 cfs 0.295 af Pond 16P: CB-1 Peak Elev=324.93' Inflow=5.91 cfs 0.276 af 15.0" Round Culvert n=0.012 L=110.0' S=0.0050 '/' Outflow=5.91 cfs 0.276 af Pond 17P: CB-2 Peak Elev=324.22' Inflow=5.91 cfs 0.276 af 15.0" Round Culvert n=0.012 L=115.0' S=0.0057 '/' Outflow=5.91 cfs 0.276 af Pond 21 P: Forebay 1 Peak Elev=321.95' Storage=21,472 cf Inflow=10.61 cfs 0.609 af Outflow=7.74 cfs 0.600 af Pond SMP-1:Wet Pond Peak EIev=321.09' Storage=94,203 cf Inflow=10.11 cfs 1.038 af Outflow=0.13 cfs 0.034 af Pond SMP-2: Porous Pavement Peak Elev=321.79' Storage=28 cf Inflow=1.94 cfs 0.086 af Outflow=1.87 cfs 0.086 af Pond SMP-3: Porous Pavement Peak Elev=322.61' Storage=8,408 cf Inflow=17.17 cfs 0.794 af Outflow=4.54 cfs 0.794 af Pond SMP-4: Porous Pavement Peak Elev=323.82' Storage=2,476 cf Inflow=4.36 cfs 0.211 af Discarded=0.66 cfs 0.182 af Secondary=1.17 cfs 0.029 af Outflow=1.83 cfs 0.211 af Pond SMP-5: Porous Pavement Peak Elev=323.55' Storage=378 cf Inflow=1.19 cfs 0.056 af Outflow=0.49 cfs 0.056 af Pond SMP-6: Porous Pavement Peak Elev=322.91' Storage=6,459 cf Inflow=11.92 cfs 0.565 af Outflow=2.78 cfs 0.565 af Pond SMP-7: Porous Pavement Peak EIev=323.05' Storage=2,176 cf Inflow=3.81 cfs 0.181 af Outflow=0.82 cfs 0.181 af Pond SMP-8: Porous Pavement Peak Elev=322.14' Storage=292 cf Inflow=1.03 cfs 0.052 af Outflow=0.47 cfs 0.052 af Link AP-1: AP-1 Inflow=0.13 cfs 0.034 af Primary=0.13 cfs 0.034 af Link AP-2: AP-2 Inflow=0.00 cfs 0.002 af Primary=0.00 cfs 0.002 af Link AP-3: AP-3 Inflow=0.47 cfs 0.035 af Primary=0.47 cfs 0.035 af Total Runoff Area = 14.421 ac Runoff Volume = 3.020 af Average Runoff Depth = 2.51" 53.74% Pervious = 7.750 ac 46.26% Impervious = 6.671 ac Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 3 Summary for Subcatchment 1: Subcat 1 Runoff = 5.68 cfs @ 12.04 hrs, Volume= 0.333 af, Depth> 0.89" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 3.193 39 >75% Grass cover, Good, HSG A 0.720 98 Paved parking, HSG A 0.589 30 Woods, Good, HSG A 4.502 47 Weighted Average 3.782 38 84.01% Pervious Area 0.720 98 15.99% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 9.2 100 0.0300 0.18 Sheet Flow, Grass: Short n= 0.150 P2= 2.60" 0.7 44 0.0200 0.99 Shallow Concentrated Flow, Short Grass Pasture Kv= 7.0 fps 9.9 144 Total Summary for Subcatchment 2: Subcat 2 Runoff = 1.94 cfs @ 11.97 hrs, Volume= 0.086 af, Depth> 2.91" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.113 39 >75% Grass cover, Good, HSG A 0.205 98 Paved parking, HSG A 0.039 30 Woods, Good, HSG A 0.357 72 Weighted Average 0.152 37 42.61% Pervious Area 0.205 98 57.39% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 3: Subcat 3 Runoff = 0.36 cfs @ 12.00 hrs, Volume= 0.020 af, Depth> 0.64" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 4 Area (ac) CN Description 0.347 39 >75% Grass cover, Good, HSG A 0.028 98 Paved parking, HSG A 0.000 30 Woods, Good, HSG A 0.375 43 Weighted Average 0.347 39 92.65% Pervious Area 0.028 98 7.35% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 4: Subcat 4 Runoff = 17.17 cfs @ 11.97 hrs, Volume= 0.794 af, Depth> 3.79" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.744 39 >75% Grass cover, Good, HSG A 1.770 98 Paved parking, HSG A 0.001 30 Woods, Good, HSG A 2.514 81 Weighted Average 0.745 39 29.62% Pervious Area 1.770 98 70.38% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 5: Subcat 5 Runoff = 2.46 cfs @ 11.96 hrs, Volume= 0.118 af, Depth> 4.41" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.057 39 >75% Grass cover, Good, HSG A 0.264 98 Paved parking, HSG A 0.322 87 Weighted Average 0.057 39 17.83% Pervious Area 0.264 98 82.17% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 5 Summary for Subcatchment 6: Subcat 6 Runoff = 4.36 cfs @ 11.96 hrs, Volume= 0.211 af, Depth> 4.52" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.095 39 >75% Grass cover, Good, HSG A 0.466 98 Paved parking, HSG A 0.561 88 Weighted Average 0.095 39 16.89% Pervious Area 0.466 98 83.11% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 7: Subcat 7 Runoff = 1.19 cfs @ 11.97 hrs, Volume= 0.056 af, Depth> 3.89" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.047 39 >75% Grass cover, Good, HSG A 0.124 98 Paved parking, HSG A 0.171 82 Weighted Average 0.047 39 27.34% Pervious Area 0.124 98 72.66% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 8: Subcat 8 Runoff = 3.81 cfs @ 11.97 hrs, Volume= 0.181 af, Depth> 4.20" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.115 39 >75% Grass cover, Good, HSG A 0.401 98 Paved parking, HSG A 0.516 85 Weighted Average 0.115 39 22.37% Pervious Area 0.401 98 77.63% Impervious Area Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 6 Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 9: Subcat 9 Runoff = 1.03 cfs @ 11.96 hrs, Volume= 0.052 af, Depth> 5.03" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.010 39 >75% Grass cover, Good, HSG A 0.114 98 Paved parking, HSG A 0.124 93 Weighted Average 0.010 39 7.72% Pervious Area 0.114 98 92.28% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 10: Subcat 10 Runoff = 11.92 cfs @ 11.97 hrs, Volume= 0.565 af, Depth> 4.20" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.356 39 >75% Grass cover, Good, HSG A 1.256 98 Paved parking, HSG A 1.613 85 Weighted Average 0.356 39 22.09% Pervious Area 1.256 98 77.91% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 11: Subcat 11 Runoff = 6.75 cfs @ 11.97 hrs, Volume= 0.299 af, Depth> 2.54" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 7 Area (ac) CN Description 0.713 39 >75% Grass cover, Good, HSG A 0.697 98 Paved parking, HSG A 1.410 68 Weighted Average 0.713 39 50.56% Pervious Area 0.697 98 49.44% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 12: Subcat 12 Runoff = 0.15 cfs @ 12.02 hrs, Volume= 0.012 af, Depth> 0.42" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.347 39 >75% Grass cover, Good, HSG A 0.347 39 100.00% Pervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 13: Subcat 13 Runoff = 0.00 cfs @ 13.42 hrs, Volume= 0.002 af, Depth> 0.12" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.055 39 >75% Grass cover, Good, HSG A 0.000 98 Paved parking, HSG A 0.169 30 Woods, Good, HSG A 0.223 32 Weighted Average 0.223 32 100.00% Pervious Area 0.000 98 0.00% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 12.0 79 0.0700 0.11 Sheet Flow, Woods: Light underbrush n= 0.400 P2= 2.60" Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 8 Summary for Subcatchment 14: Subcat 14 Runoff = 0.12 cfs @ 12.04 hrs, Volume= 0.015 af, Depth> 0.32" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.432 39 >75% Grass cover, Good, HSG A 0.001 98 Paved parking, HSG A 0.124 30 Woods, Good, HSG A 0.557 37 Weighted Average 0.555 37 99.78% Pervious Area 0.001 98 0.22% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Subcatchment 15: Subcat 15 Runoff = 5.91 cfs @ 11.97 hrs, Volume= 0.276 af, Depth> 4.00" Runoff by SCS TR-20 method, UH=SCS, Weighted-CN, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Type II 24-hr 100-yr Rainfa11=6.20" Area (ac) CN Description 0.205 39 >75% Grass cover, Good, HSG A 0.625 98 Paved parking, HSG A 0.830 83 Weighted Average 0.205 39 24.74% Pervious Area 0.625 98 75.26% Impervious Area Tc Length Slope Velocity Capacity Description (min) (feet) (ft/ft) (ft/sec) (cfs) 6.0 Direct Entry, Summary for Reach 13R: Swale Inflow Area = 1.757 ac, 39.67% Impervious, Inflow Depth > 2.12" for 100-yr event Inflow = 6.93 cfs @ 11.98 hrs, Volume= 0.311 af Outflow = 2.84 cfs @ 12.52 hrs, Volume= 0.295 af, Atten= 59%, Lag= 32.7 min Routing by Stor-Ind+Trans method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Max. Velocity= 0.35 fps, Min. Travel Time= 25.6 min Avg. Velocity = 0.14 fps, Avg. Travel Time= 63.4 min Peak Storage= 4,391 cf @ 12.09 hrs Average Depth at Peak Storage= 0.55' Bank-Full Depth= 2.00' Flow Area= 52.0 sf, Capacity= 36.80 cfs Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 9 11.00' x 2.00' deep channel, n= 0.150 Side Slope Z-value= 3.0 12.0 '/' Top Width= 41.00' Length= 531.0' Slope= 0.0038 '/' Inlet Invert= 323.50', Outlet Invert= 321.50' $ Summary for Reach 14R: Swale Inflow Area = 2.079 ac, 46.25% Impervious, Inflow Depth > 2.55" for 100-yr event Inflow = 3.19 cfs @ 12.00 hrs, Volume= 0.442 af Outflow = 2.91 cfs @ 12.67 hrs, Volume= 0.438 af, Atten= 9%, Lag= 39.9 min Routing by Stor-Ind+Trans method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Max. Velocity= 0.47 fps, Min. Travel Time= 5.4 min Avg. Velocity = 0.17 fps, Avg. Travel Time= 14.4 min Peak Storage= 936 cf @ 12.57 hrs Average Depth at Peak Storage= 0.63' Bank-Full Depth= 2.50' Flow Area= 38.8 sf, Capacity= 38.79 cfs 8.00' x 2.50' deep channel, n= 0.150 Side Slope Z-value= 3.0 '/' Top Width= 23.00' Length= 150.0' Slope= 0.0053 '/' Inlet Invert= 321.30', Outlet Invert= 320.50' $ Summary for Pond 1 P: 18" Culvert Inflow Area = 1.757 ac, 39.67% Impervious, Inflow Depth > 2.01" for 100-yr event Inflow = 2.84 cfs @ 12.52 hrs, Volume= 0.295 af Outflow = 2.84 cfs @ 12.52 hrs, Volume= 0.295 af, Atten= 0%, Lag= 0.0 min Primary = 2.84 cfs @ 12.52 hrs, Volume= 0.295 af Routing by Stor-Ind method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Peak Elev= 322.42' @ 12.52 hrs Device Routing Invert Outlet Devices #1 Primary 321.50' 18.0" Round Culvert L= 40.0' Ke= 0.500 Inlet/ Outlet Invert= 321.50' / 321.30' S= 0.0050 '/' Cc= 0.900 n= 0.012, Flow Area= 1.77 sf Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 10 Primary OutFlow Max=2.80 cfs @ 12.52 hrs HW=322.41' (Free Discharge) L1=Culvert (Barrel Controls 2.80 cfs @ 3.56 fps) Summary for Pond 16P: CB-1 Inflow Area = 0.830 ac, 75.26% Impervious, Inflow Depth > 4.00" for 100-yr event Inflow = 5.91 cfs @ 11.97 hrs, Volume= 0.276 af Outflow = 5.91 cfs @ 11.97 hrs, Volume= 0.276 af, Atten= 0%, Lag= 0.0 min Primary = 5.91 cfs @ 11.97 hrs, Volume= 0.276 af Routing by Stor-Ind method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Peak Elev= 324.93' @ 11.97 hrs Device Routing Invert Outlet Devices #1 Primary 322.90' 15.0" Round Culvert L= 110.0' Ke= 0.500 Inlet/ Outlet Invert= 322.90' / 322.35' S= 0.0050 '/' Cc= 0.900 n= 0.012, Flow Area= 1.23 sf Primary OutFlow Max=5.74 cfs @ 11.97 hrs HW=324.85' (Free Discharge) L1=Culvert (Barrel Controls 5.74 cfs @ 4.67 fps) Summary for Pond 17P: CB-2 Inflow Area = 0.830 ac, 75.26% Impervious, Inflow Depth > 4.00" for 100-yr event Inflow = 5.91 cfs @ 11.97 hrs, Volume= 0.276 af Outflow = 5.91 cfs @ 11.97 hrs, Volume= 0.276 af, Atten= 0%, Lag= 0.0 min Primary = 5.91 cfs @ 11.97 hrs, Volume= 0.276 af Routing by Stor-Ind method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Peak Elev= 324.22' @ 11.97 hrs Device Routing Invert Outlet Devices #1 Primary 322.25' 15.0" Round Culvert L= 115.0' Ke= 0.500 Inlet/ Outlet Invert= 322.25' / 321.60' S= 0.0057 '/' Cc= 0.900 n= 0.012, Flow Area= 1.23 sf Primary OutFlow Max=5.74 cfs @ 11.97 hrs HW=324.13' (Free Discharge) L1=Culvert (Barrel Controls 5.74 cfs @ 4.67 fps) Summary for Pond 21 P: Forebay 1 Inflow Area = 5.332 ac, 25.21% Impervious, Inflow Depth > 1.37" for 100-yr event Inflow = 10.61 cfs @ 12.00 hrs, Volume= 0.609 af Outflow = 7.74 cfs @ 12.08 hrs, Volume= 0.600 af, Atten= 27%, Lag= 4.5 min Primary = 7.74 cfs @ 12.08 hrs, Volume= 0.600 af Routing by Stor-Ind method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Starting Elev= 321.50' Surf.Area= 8,656 sf Storage= 17,395 cf Peak Elev= 321.95' @ 12.08 hrs Surf.Area= 9,546 sf Storage= 21,472 cf (4,078 cf above start) Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 11 Plug-Flow detention time= 284.2 min calculated for 0.200 af(33% of inflow) Center-of-Mass det. time= 11.0 min ( 817.9 - 806.8 ) Volume Invert Avail.Storage Storage Description #1 318.50' 27,055 cf Custom Stage Data (Irregular)Listed below (Recalc) Elevation Surf.Area Perim. Inc.Store Cum.Store Wet.Area (feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 318.50 3,126 423.0 0 0 3,126 319.50 4,869 448.0 3,965 3,965 4,913 320.50 6,712 473.0 5,766 9,731 6,802 321.50 8,656 498.0 7,663 17,395 8,794 322.50 10,701 523.0 9,660 27,055 10,888 Device Routing Invert Outlet Devices #1 Primary 321.50' 10.0' long x 8.0' breadth Broad-Crested Rectangular Weir Head (feet) 0.20 0.40 0.60 0.80 1.00 1.20 1.40 1.60 1.80 2.00 2.50 3.00 3.50 4.00 4.50 5.00 5.50 Coef. (English) 2.43 2.54 2.70 2.69 2.68 2.68 2.66 2.64 2.64 2.64 2.65 2.65 2.66 2.66 2.68 2.70 2.74 Primary OutFlow Max=7.60 cfs @ 12.08 hrs HW=321.94' (Free Discharge) L1=Broad-Crested Rectangular Weir(Weir Controls 7.60 cfs @ 1.71 fps) Summary for Pond SMP-1: Wet Pond Inflow Area = 7.411 ac, 31.12% Impervious, Inflow Depth > 1.68" for 100-yr event Inflow = 10.11 cfs @ 12.10 hrs, Volume= 1.038 af Outflow = 0.13 cfs @ 20.00 hrs, Volume= 0.034 af, Atten= 99%, Lag= 474.2 min Primary = 0.13 cfs @ 20.00 hrs, Volume= 0.034 af Routing by Stor-Ind method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Starting Elev= 319.50' Surf.Area= 24,047 sf Storage= 50,494 cf Peak Elev= 321.09' @ 20.00 hrs Surf.Area= 31,405 sf Storage= 94,203 cf (43,709 cf above start) Plug-Flow detention time= (not calculated: initial storage exceeds outflow) Center-of-Mass det. time= 254.9 min ( 1,075.5 - 820.7 ) Volume Invert Avail.Storage Storage Description #1 317.00' 145,083 cf Custom Stage Data (Irregular)Listed below (Recalc) Elevation Surf.Area Perim. Inc.Store Cum.Store Wet.Area (feet) (sq-ft) (feet) (cubic-feet) (cubic-feet) (sq-ft) 317.00 16,855 639.0 0 0 16,855 318.00 19,460 665.0 18,142 18,142 19,631 319.00 22,171 689.0 20,801 38,943 22,304 320.00 26,000 775.0 24,060 63,003 32,350 321.00 30,815 1,011.0 28,373 91,376 65,903 322.00 37,610 1,495.0 34,156 125,532 162,431 322.50 40,611 1,507.0 19,550 145,083 165,394 Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 12 Device Routing Invert Outlet Devices #1 Primary 320.50' 20.0 deg x 1.25' rise Sharp-Crested Vee/Trap Weir Cv= 2.69 (C= 3.36) #2 Primary 321.75' 10.0' long x 10.0' breadth Broad-Crested Rectangular Weir Head (feet) 0.20 0.40 0.60 0.80 1.00 1.20 1.40 1.60 Coef. (English) 2.49 2.56 2.70 2.69 2.68 2.69 2.67 2.64 Primary OutFlow Max=0.13 cfs @ 20.00 hrs HW=321.09' (Free Discharge) �1=Sharp-Crested Vee/Trap Weir(Weir Controls 0.13 cfs @ 2.07 fps) 2=Broad-Crested Rectangular Weir( Controls 0.00 cfs) Summary for Pond SMP-2: Porous Pavement Inflow Area = 0.357 ac, 57.39% Impervious, Inflow Depth > 2.91" for 100-yr event Inflow = 1.94 cfs @ 11.97 hrs, Volume= 0.086 af Outflow = 1.87 cfs @ 11.98 hrs, Volume= 0.086 af, Atten= 3%, Lag= 0.2 min Discarded = 1.87 cfs @ 11.98 hrs, Volume= 0.086 af Routing by Stor-Ind method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Peak Elev= 321.79' @ 11.99 hrs Surf.Area= 3,345 sf Storage= 28 cf Plug-Flow detention time= (not calculated: outflow precedes inflow) Center-of-Mass det. time= 0.1 min ( 786.9 - 786.8 ) Volume Invert Avail.Storage Storage Description #1 321.77' 1,338 cf Custom Stage Data (Prismatic)Listed below (Recalc) Elevation Surf.Area Voids Inc.Store Cum.Store (feet) (sq-ft) (%) (cubic-feet) (cubic-feet) 321.77 3,345 0.0 0 0 322.77 3,345 40.0 1,338 1,338 Device Routing Invert Outlet Devices #1 Discarded 321.77' 23.500 in/hr Exfiltration over SurFace area Discarded OutFlow Max=1.82 cfs @ 11.98 hrs HW=321.79' (Free Discharge) L1=Exfiltration (Exfiltration Controls 1.82 cfs) Summary for Pond SMP-3: Porous Pavement Inflow Area = 2.514 ac, 70.38% Impervious, Inflow Depth > 3.79" for 100-yr event Inflow = 17.17 cfs @ 11.97 hrs, Volume= 0.794 af Outflow = 4.54 cfs @ 11.75 hrs, Volume= 0.794 af, Atten= 74%, Lag= 0.0 min Discarded = 4.54 cfs @ 11.75 hrs, Volume= 0.794 af Routing by Stor-Ind method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Peak Elev= 322.61' @ 12.12 hrs Surf.Area= 32,671 sf Storage= 8,408 cf Plug-Flow detention time= 9.4 min calculated for 0.791 af(100% of inflow) Center-of-Mass det. time= 9.3 min ( 779.0 - 769.7 ) Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 13 Volume Invert Avail.Storage Storage Description #1 321.97' 13,068 cf Custom Stage Data (Prismatic)Listed below (Recalc) Elevation Surf.Area Voids Inc.Store Cum.Store (feet) (sq-ft) (%) (cubic-feet) (cubic-feet) 321.97 32,671 0.0 0 0 322.97 32,671 40.0 13,068 13,068 Device Routing Invert Outlet Devices #1 Discarded 321.97' 6.000 in/hr Exfiltration over SurFace area Discarded OutFlow Max=4.54 cfs @ 11.75 hrs HW=321.98' (Free Discharge) L1=Exfiltration (Exfiltration Controls 4.54 cfs) Summary for Pond SMP-4: Porous Pavement Inflow Area = 0.561 ac, 83.11% Impervious, Inflow Depth > 4.52" for 100-yr event Inflow = 4.36 cfs @ 11.96 hrs, Volume= 0.211 af Outflow = 1.83 cfs @ 12.08 hrs, Volume= 0.211 af, Atten= 58%, Lag= 7.0 min Discarded = 0.66 cfs @ 11.70 hrs, Volume= 0.182 af Secondary = 1.17 cfs @ 12.08 hrs, Volume= 0.029 af Routing by Stor-Ind method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Peak Elev= 323.82' @ 12.08 hrs Surf.Area= 3,400 sf Storage= 2,476 cf Plug-Flow detention time= 14.0 min calculated for 0.211 af(100% of inflow) Center-of-Mass det. time= 13.9 min ( 767.5 - 753.6 ) Volume Invert Avail.Storage Storage Description #1 322.00' 3,169 cf Custom Stage Data (Prismatic)Listed below (Recalc) Elevation Surf.Area Voids Inc.Store Cum.Store (feet) (sq-ft) (%) (cubic-feet) (cubic-feet) 322.00 3,400 0.0 0 0 324.33 3,400 40.0 3,169 3,169 Device Routing Invert Outlet Devices #1 Discarded 322.00' 8.375 in/hr Exfiltration over SurFace area #2 Secondary 323.00' 8.0" Round Culvert L= 30.0' Ke= 0.500 Inlet/ Outlet Invert= 323.00' / 322.70' S= 0.0100 '/' Cc= 0.900 n= 0.012, Flow Area= 0.35 sf Discarded OutFlow Max=0.66 cfs @ 11.70 hrs HW=322.05' (Free Discharge) L1=Exfiltration (Exfiltration Controls 0.66 cfs) Secondary OutFlow Max=1.16 cfs @ 12.08 hrs HW=323.81' (Free Discharge) L2=Culvert (Inlet Controls 1.16 cfs @ 3.32 fps) Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 14 Summary for Pond SMP-5: Porous Pavement Inflow Area = 0.171 ac, 72.66% Impervious, Inflow Depth > 3.89" for 100-yr event Inflow = 1.19 cfs @ 11.97 hrs, Volume= 0.056 af Outflow = 0.49 cfs @ 11.85 hrs, Volume= 0.056 af, Atten= 59%, Lag= 0.0 min Discarded = 0.49 cfs @ 11.85 hrs, Volume= 0.056 af Routing by Stor-Ind method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Peak Elev= 323.55' @ 12.08 hrs Surf.Area= 1,300 sf Storage= 378 cf Plug-Flow detention time= (not calculated: outflow precedes inflow) Center-of-Mass det. time= 3.1 min ( 770.7 - 767.6 ) Volume Invert Avail.Storage Storage Description #1 322.82' 520 cf Custom Stage Data (Prismatic)Listed below (Recalc) Elevation Surf.Area Voids Inc.Store Cum.Store (feet) (sq-ft) (%) (cubic-feet) (cubic-feet) 322.82 1,300 0.0 0 0 323.82 1,300 40.0 520 520 Device Routing Invert Outlet Devices #1 Discarded 322.82' 16.250 in/hr Exfiltration over SurFace area Discarded OutFlow Max=0.49 cfs @ 11.85 hrs HW=322.86' (Free Discharge) L1=Exfiltration (Exfiltration Controls 0.49 cfs) Summary for Pond SMP-6: Porous Pavement Inflow Area = 1.613 ac, 77.91% Impervious, Inflow Depth > 4.20" for 100-yr event Inflow = 11.92 cfs @ 11.97 hrs, Volume= 0.565 af Outflow = 2.78 cfs @ 11.75 hrs, Volume= 0.565 af, Atten= 77%, Lag= 0.0 min Discarded = 2.78 cfs @ 11.75 hrs, Volume= 0.565 af Routing by Stor-Ind method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Peak Elev= 322.91' @ 12.13 hrs Surf.Area= 21,833 sf Storage= 6,459 cf Plug-Flow detention time= (not calculated: outflow precedes inflow) Center-of-Mass det. time= 12.1 min ( 772.8 - 760.7 ) Volume Invert Avail.Storage Storage Description #1 322.17' 8,733 cf Custom Stage Data (Prismatic)Listed below (Recalc) Elevation Surf.Area Voids Inc.Store Cum.Store (feet) (sq-ft) (%) (cubic-feet) (cubic-feet) 322.17 21,833 0.0 0 0 323.17 21,833 40.0 8,733 8,733 Device Routing Invert Outlet Devices #1 Discarded 322.17' 5.500 in/hr Exfiltration over SurFace area Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 15 Discarded OutFlow Max=2.78 cfs @ 11.75 hrs HW=322.19' (Free Discharge) L1=Exfiltration (Exfiltration Controls 2.78 cfs) Summary for Pond SMP-7: Porous Pavement Inflow Area = 0.516 ac, 77.63% Impervious, Inflow Depth > 4.20" for 100-yr event Inflow = 3.81 cfs @ 11.97 hrs, Volume= 0.181 af Outflow = 0.82 cfs @ 11.70 hrs, Volume= 0.181 af, Atten= 79%, Lag= 0.0 min Discarded = 0.82 cfs @ 11.70 hrs, Volume= 0.181 af Routing by Stor-Ind method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Peak Elev= 323.05' @ 12.14 hrs Surf.Area= 2,660 sf Storage= 2,176 cf Plug-Flow detention time= (not calculated: outflow precedes inflow) Center-of-Mass det. time= 14.3 min ( 775.0 - 760.7 ) Volume Invert Avail.Storage Storage Description #1 321.00' 2,309 cf Custom Stage Data (Prismatic)Listed below (Recalc) Elevation Surf.Area Voids Inc.Store Cum.Store (feet) (sq-ft) (%) (cubic-feet) (cubic-feet) 321.00 2,660 0.0 0 0 323.17 2,660 40.0 2,309 2,309 Device Routing Invert Outlet Devices #1 Discarded 321.00' 13.250 in/hr Exfiltration over SurFace area Discarded OutFlow Max=0.82 cfs @ 11.70 hrs HW=321.02' (Free Discharge) L1=Exfiltration (Exfiltration Controls 0.82 cfs) Summary for Pond SMP-8: Porous Pavement Inflow Area = 0.124 ac, 92.28% Impervious, Inflow Depth > 5.03" for 100-yr event Inflow = 1.03 cfs @ 11.96 hrs, Volume= 0.052 af Outflow = 0.47 cfs @ 11.85 hrs, Volume= 0.052 af, Atten= 54%, Lag= 0.0 min Discarded = 0.47 cfs @ 11.85 hrs, Volume= 0.052 af Routing by Stor-Ind method, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Peak Elev= 322.14' @ 12.07 hrs Surf.Area= 1,540 sf Storage= 292 cf Plug-Flow detention time= (not calculated: outflow precedes inflow) Center-of-Mass det. time= 2.3 min ( 743.5 - 741.3 ) Volume Invert Avail.Storage Storage Description #1 321.67' 616 cf Custom Stage Data (Prismatic)Listed below (Recalc) Elevation Surf.Area Voids Inc.Store Cum.Store (feet) (sq-ft) (%) (cubic-feet) (cubic-feet) 321.67 1,540 0.0 0 0 322.67 1,540 40.0 616 616 Post Development Type 1124-hr 100-yr Rainfa11=6.20" Prepared by The LA Group Printed 5/12/2020 HydroCAD� 10.00-21 s/n 00439 O 2018 HydroCAD Software Solutions LLC Paqe 16 Device Routing Invert Outlet Devices #1 Discarded 321.67' 13.250 in/hr Exfiltration over SurFace area Discarded OutFlow Max=0.47 cfs @ 11.85 hrs HW=321.70' (Free Discharge) L1=Exfiltration (Exfiltration Controls 0.47 cfs) Summary for Link AP-1: AP-1 Inflow Area = 7.411 ac, 31.12% Impervious, Inflow Depth > 0.06" for 100-yr event Inflow = 0.13 cfs @ 20.00 hrs, Volume= 0.034 af Primary = 0.13 cfs @ 20.00 hrs, Volume= 0.034 af, Atten= 0%, Lag= 0.0 min Primary outflow= Inflow, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Summary for Link AP-2: AP-2 Inflow Area = 0.223 ac, 0.00% Impervious, Inflow Depth > 0.12" for 100-yr event Inflow = 0.00 cfs @ 13.42 hrs, Volume= 0.002 af Primary = 0.00 cfs @ 13.42 hrs, Volume= 0.002 af, Atten= 0%, Lag= 0.0 min Primary outflow= Inflow, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Summary for Link AP-3: AP-3 Inflow Area = 0.931 ac, 3.09% Impervious, Inflow Depth > 0.45" for 100-yr event Inflow = 0.47 cfs @ 12.01 hrs, Volume= 0.035 af Primary = 0.47 cfs @ 12.01 hrs, Volume= 0.035 af, Atten= 0%, Lag= 0.0 min Primary outflow= Inflow, Time Span= 5.00-20.00 hrs, dt= 0.05 hrs Attachment D Storm Data Job Name and# Tait Lane Reserve Minimum Runoff Reduction Volume 5/8/2020 RRv = [(P)(Rv�)(Ai)]/12 Where: Ai = (S)(Aic) Rv = 0.05 + 0.009(� where I is 100% impervious Ai = impervious cover targeted for runoff reduction Aic = Total area of new impervious cover P = 90%rainfall (see Figure 4.1 in NYS Stormwater Management Design Manual) S = Hydrologic Soil Group (HSG) Specific Reduction Factor(S) A=0.55, B=0.40, C=0.30, D=020 S (HSG D) 0.20 Aic 6.59 acres Rv 0.95 90% Rainfall 1.15 Ai 1.318 RRv = 0120 acre feet= 5,228 ft� Stormwater Practice Sizing Job Name and# Tait Lane Reserve Water Quality Volume Calculation 5/8/2020 �'�'Q�'_ ��)��)�A)�/12 Where: Rv=0.05+0.009(I) I=impervious cover in percent P=90°/o rainfall(see Figure 4.1 in NYS Stormwater Management Design Manual) A=Area in acres Wet Pond(SMP-1) %Impervious 3112% Rv 0.33 90%Rainfall 1.15 Area in Square Feet 322823 WQv Required= 10212 ft' 0.234 ac-ft Porous Asphalt(SMP-2) %Impervious 57.39% Rv 0.57 90%Rainfall 1.15 Area in Square Feet 15551 WQv Required= 844 ft' 0.019 ac-ft Porous Asphalt(SMP-3) %Impervious 70.38% Rv 0.68 90%Rainfall 1.15 Area in Square Feet 109510 WQv Required= 7172 ft' 0.165 ac-ft Porous Asphalt(SMP-4) %Impervious 83.11% Rv 0.80 90%Rainfall 1.15 Area in Square Feet 24437 WQv Required= 1869 ft' 0.043 ac-ft Porous Asphalt(SMP-5) %Impervious 72.66% Rv 0.70 90%Rainfall 1.15 Area in Square Feet 7449 WQv Required= 503 ft' 0.012 ac-ft Porous Asphalt(SMP-6) %Impervious 77.91% Rv 0.75 90%Rainfall 1.15 Area in Square Feet 70262 WQv Required= 5058 ft' 0.116 ao-ft Porous Asphalt(SMP-7) %Impervious 77.63% Rv 0.75 90%Rainfall 1.15 Area in Square Feet 22477 WQv Required= 1613 ft' 0.037 ac-ft Porous Asphalt(SMP-8) %Impervious 9228% Rv 0.88 90%Rainfall 1.15 Area in Square Feet 5401 WQv Required= 456 ft' 0.010 ao-ft New Impervious %Impervious 100.00% Rv 0.95 90%Rainfall 1.15 Area in Square Feet 288411 WQv Required= 26257 ft3 0.603 ao-ft Job Name Tait Lane Reserve Channel Protection Volume Calculation 5/8/2020 Pre Development Step 1: Determine Qu P = 2.15 in. (1-yr. storm) Area= 14.4 acres CN= 36 Ia= 3.556 Ia/P = 1.65 Tc = 1 Hrs. Using Figure 4-II, TR-55 and Tc, determine Qu(csm/in) Qu= 160 csm/in Sten 2: Determine Qo/Qi Using Figure B-1, DEC Manual Appendix B for T=24 hrs. and Qu, determine Qo/Qi Qo/Qi = 0.1 Step 3: Determine Vs/Vr Vs/Vr= 0.682 - 1.43(Qo/Qi)+ 1.64 (Qo/Qi)^2 - 0.804 (Qo/Qi)^3 Vs/Vr= 0.555 Sten 4: Determine Qd Using Figure 2.l, TR-55 or SCS TR-16 and P, determine Qd(in of runoff� Qd= 0 in Step 5: Determine Cpv Area= 14.40 acres Cpv =Vs = (Vs/Vr) * Qd* A/12 Cpv = 0.000 ac-ft Cpv = 0 ft3 Cpv Req.= 0 ft3 Job Name Tait Lane Reserve Channel Protection Volume Calculation 5/8/2020 Sten 1:Determine Ou P = 215 in. (1-yr. storm) Area= 14.4 acres CN= 88 Ia= 0.273 Ia/P= 013 Tc= 0.2 Hrs. Using Figure 4-II,TR-55 and Tc,determine Qu(csm/in) Qu= 750 csm/in Sten 2:Determine Oo/Oi Using Figure B-1,DEC Manual Appendix B far T=24 hrs. and Qu,determine Qo/Qi Qo/Qi= 0.03 Sten 3:Determine Vs/Vr Vs/Vr=0.682- 1.43(Qo/Qi)+ 1.64(Qo/Qi)^2-0.804(Qo/Qi)^3 Vs/Vr= 0.641 Sten 4:Determine Od Using Figure 21,TR-55 or SCS TR-16 and P,determine Qd(in of runof� Qd= 1 in Sten 5:Determine Cnv Area= 14.40 acres Cpv=Vs=(Vs/Vr) * Qd* A/12 Cpv= 0.769 ac-ft Cpv= 33483 ft3 Pre Dev 0 ft3 CPv Required= 33483 ft3 Volume reduction achieved through green infrastructure SMP 1 = 26094 ft3 SMP 2= 844 ft3 SMP 3 = 7172 ft3 SMP 4= 1869 ft3 SMP 5= 503 ft3 SMP 6= 5058 ft3 SMP 7= 1613 ft3 SMP 8= 456 ft3 Cpv Provided= 43608 ft3 Appendix C Map Set Appendix D SWPPP Inspection Form Tait Lane Reserve -Saratoga Springs WEEKLY SWPPP INSPECTION REPORT Ins ector Name: Date: Si nature re uired : Time: Weather: Ins ection #: Soil Conditions dr , saturated, etc : Note: Digital photos,with date stamp required for all practices requiring corrective action, before and after, to be attached to the inspection report. YES NO N/A 1. ❑ ❑ ❑ Routine Inspection. Date of last inspection: 2. Inspection following rain event. Date/time of storm ending: ❑ ❑ ❑ Rainfall amount: Recorded by: 3. ❑ ❑ ❑ Is this a final site inspection? 4. ❑ ❑ ❑ Has site undergone final stabilization? ❑ ❑ ❑ If so, have all temporary erosion and sediment controls been removed? Site Disturbance (Indicate Locations on Plan) YES NO N/A 1. ❑ ❑ ❑ Areas previously disturbed, but have not undergone active site work in the last 14 days? 2• ❑ ❑ ❑ Areas disturbed within last 14 days? 3. ❑ ❑ ❑ Areas expected to be disturbed in next 14 days? 4. � � � Do areas of steep slopes or complex stabilization issues exist? If"YES" explain: 5. � � � Are there currently more than 5 acres of disturbed soil at the site? If so make sure there is an approval letter from NYS DEC. Additional Comments: Inspection of Erosion and Sediment Control Devices Type of Control Device Accumulation (if any) in % Repairs/Maintenance Needed 1. 2. 3. 4. 5. 6. Stabilization/Runoff YES NO N/A 1. ❑ ❑ ❑ Are all existing disturbed areas contained by control devices? Type of devices: 2. ❑ ❑ ❑ Are there areas that require stabilization within the next 14 days? Specify Area: 3. ❑ ❑ ❑ Have stabilization measures been initiated in inactive areas? 4. ❑ ❑ ❑ Is there current snow cover or frozen ground conditions? 5. ❑ ❑ ❑ Rills or gullies? 6. ❑ ❑ ❑ Slumping/deposition? 7• ❑ ❑ ❑ Loss of vegetation? 8. ❑ ❑ ❑ Lack of germination? 9• ❑ ❑ ❑ Loss of mulching? Receiving Structures/Water Bodies (Indicate locations where runoff leaves the project site on the site plan) YES NO N/A 1. ❑ ❑ ❑ Surface water swale or natural surface waterbody? If natural waterbody: Is waterbody located ❑ onsite, or ❑ adjacent to property boundary? Description of condition: 2• ❑ ❑ ❑ Municipal or community system? Inspect locations where runoff from project site enters the receiving waters and indicate if there is evidence of: a• ❑ ❑ ❑ Rills or gullies? b• ❑ ❑ ❑ Slumping/deposition? �• ❑ ❑ ❑ Loss of vegetation? d• ❑ ❑ ❑ Undermining of structures? e. ❑ ❑ ❑ Was there a discharge into the receiving water on the day of inspection? f. ❑ ❑ ❑ Is there evidence of turbidity, sedimentation, or oil in the receiving waters? Additional Comments: Inspection of Post-Construction Stormwater Management Control Devices Type of Control Device Phase of Construction Repairs/Maintenance Needed 1. 2. 3. 4. General Site Condition YES NO N/A 1. ❑ ❑ ❑ Have action items from previous reports been addressed? 2. ❑ ❑ ❑ Does routine maintenance of protection components occur on a regular basis? 3. ❑ ❑ ❑ Does cleaning and/or sweeping affected roadways occur, at minimum, daily? 4• ❑ ❑ ❑ Is debris and litter removed on a monthly basis, or as necessary? 5• ❑ ❑ ❑ Is the site maintained in an orderly manner? Describe the condition of all natural waterbodies within or adjacent to the Project that receive runoff from the site: Contractors progress over last 7 days: Anticipated work to be begun in the next 7 days: Additional Comments: Visual Observations YES NO N/A 1. ❑ ❑ ❑ All erosion and sediment control measures have been installed/constructed? 2• ❑ ❑ ❑ All erosion and sediment control measures are being maintained properly? SUMMARY OF ACTION ITEMS TO REPAIR/REPLACE/MAINTAIN/CORRECT DEFICIENCIES Action Reported To (no signature required): Company: Appendix E Other SWPPP Forms Construction Sequence SWPPP Plan Changes Spill Response Form Stormwater Management Practice Maintenance Log The operator shall prepare a summary of construction status using the Construction Sequence Form below once every month. Significant deviations to the sequence and reasons for those deviations (i.e. weather, subcontractor availability, etc.), shall be noted by the contractor. The schedule shall be used to record the dates for initiation of construction, implementation of erosion control measures, stabilization, etc. A copy of this table will be maintained at the construction site and updated in addition to the individual Inspection Reports completed for each inspection. Construction Sequence Form Construction Activities Date (Identify name of planned practices) Complete 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. STORM WATER POLLUTION PREVENTION PLAN PLAN CHANGES, AUTHORIZATION, AND CHANGE CERTIFICATION CHANGES REQUIRED TO THE POLLUTION PREVENTION PLAN: REASONS FOR CHANGES: REQUESTED BY: DATE: AUTHORIZED BY: DATE: CERTIFICATION OF CHANGES: I certify under penalty of law that this document and all attachments were prepared under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gathered and evaluated the information submitted. Based on my inquiry of the person or persons who manage the system, or those persons directly responsible for gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that false statements made herein are punishable as a Class A misdemeanor pursuant to Section 210.45 of the penal code. SIGNATURE: DATE: SPILL RESPONSE REPORT Within 1 hour of a spill discovery less than 2 gallons in volume the following must be notified: Donald Fix (216) 865-9803 Within 1 hour of a spill discovery greater than 2 gallons the following must be notified: Donald Fix NYSDEC Spill Response Hotline 1-800-457-7362 Spill Response Contractor Material Spilled: Approximate Volume: Location: Distance to nearest down gradient drainage: Distance to nearest down gradient open water: Temporary control measures in place: Appendix F SPDES General Permit GP-0-20-001 � )� NEW YORR I p�part.ment a! PREFACE ,` �_ :"%•`�,i�,��:; Enviranmental �-�F I Canservatiqn Pursuant to Section 402 of the Clean Water Act("CWA"),stormwater discharges from certain cons[ruc[ion ac[ivi[ies are unlawful unless they are authorized by a Na[ional Nf:W YORK STHTE Pollu[an[Discharge Elimina[ion Sys[em(`NPDES")permit or by a state permit program. l7EPARTMcHT�F ENVIROMMENTAL.C�71v5E1?WEiCICE�I New York administers the approved State Pollutant Discharge Elimination System (SPDES)program with permits issued in accordance with the New York State SPdES GENER4L PEi2Mf1' Environmental Conservation Law(ECL)Article 17,Titles 7,8 and Article 70. FOR STORMWAYER OtSCHAR.GES From An owneroropera[orof a cons[ruc[ion ac[ivirythat is eligible for coverage under this permit must obtain coverage prior to the commencemen[of cons[ruc[ion ac[iviry. CQHSTRl1CFION ACl1VIY1' Activities that fitthe definition of"cons[ruc[ion ac[ivi[y',as defined under 40 CFR 122.26(b)(14)(x),(15)(i),and(15)(ii),constitute construction of a poin[source and PNnnit No.GP-6-20�001 therefore,pursuantto ECL section 17-0505 and 17-0701,the owneroropera[ormust have coverage under a SPDES permit prior to commencing conshuc[ion ac[ivity.The iss�,cd Pursuenl la Article 1 r',titles 7.E1 antl Art�cle 79 owneroroperarorcannotwait until there is an actual discharge from the cons[ruc[ion si[e af the Envi�anmenlal Gvnsa�rvatsan Law to obtain permit coverage. *Note:The italicized words/phrases within this permit are defined in Appendix A. E"rfecuue Date Jdrruary�9,2�24 `L-x�oraLon 6d[e..!anuarl_'9,1625 Jn:ss�.J FF�rgr:�nri Chief Pe�fmil Adminis3ralor .�-... _��...._,{ ,_'._. . 4' � - ._. - - , , . -: . --�.. � , . _ ,_, ------: —_.— Iiulhor2ed Srgnalure � �ate Ac+il�ass� WYS UEC �rvision df Envi�nnrnental p�ermils 62�Rrvatlwdy,dlh Floor A�6�nv h:`?. 1723's-1'50 NEW YORK STATE DEPARTMENT OF ENVIRONMENTAL CONSERVATION K. Requirementto Obtain Coverage Under an Alternative Permit...........................35 SPDES GENERAL PERMIT FOR STORMWATER DISCHARGES FROM L. Proper Operation and Maintenance....................................................................36 CONSTRUCTION ACTIVITIES M. Inspection and Entry...........................................................................................36 N. PermitActions.....................................................................................................37 Table of Contents o. oefinitions...........................................................................................................37 P. Re-OpenerClause..............................................................................................37 Part 1.PERMIT COVERAGE AND LIMITATIONS.............................................................1 Q� Penalties for Falsification of Forms and Reports.................................................37 A. PermitApplication.................................................................................................1 R. Other Permits......................................................................................................38 B. Effluent Limitations Applicable to Discharges from Construction Activities...........1 APPENDIX A—Acronyms and Definitions.......................................................................39 C. Post-construction Stormwater Management Practice Requirements....................4 Acronyms......................................................................................................................39 D. Maintainin Water Qualit .. . . . . 8 Definitions.....................................................................................................................40 9 Y............................................................................... APPENDIX B—Required SWPPP Components by Project Type....................................48 E. Eligibility UnderThis General Permit.....................................................................9 F. Activities Which Are Ineligible for Coverage Under This General Permit..............9 Table 1..........................................................................................................................48 Table2..........................................................................................................................50 Part II.PERMIT COVERAGE...........................................................................................12 APPENDIX C—Watersheds Requiring Enhanced Phosphorus Removal........................52 A. How to Obtain Coverage.....................................................................................12 APPENDIX D—Watersheds with Lower Disturbance Threshold.....................................58 B. Notice of Intent(NOI)Submittal..........................................................................13 APPENDIX E—303(d)Segments Impaired by Construction Related Pollutant(s)...........59 C. PermitAuthorization............................................................................................13 . D. General Requirements For Owners or Operators With Permit Coverage...........15 APPENDIX F—List of NYS DEC Regional Offices..........................................................65 E. Permit Coverage for Discharges Authorized Under GP-0-15-002.......................17 F. Change of Owner or Operator.............................................................................17 Part III.STORMWATER POLLUTION PREVENTION PLAN(SWPPP)...........................18 A. General SWPPP Requirements..........................................................................18 B. Required SWPPP Contents................................................................................20 C. Required SWPPP Components by ProjectType.................................................24 Part IV.INSPECTION AND MAINTENANCE REQUIREMENTS.....................................24 A. General Construction Site Inspection and Maintenance Requirements..............24 B. Contractor Maintenance Inspection Requirements.............................................24 C. Qualified Inspector Inspection Requirements......................................................25 Part V.TERMINATION OF PERMIT COVERAGE...........................................................29 A. Termination of Permit Coverage.........................................................................29 Part VI.REPORTING AND RETENTION RECORDS......................................................31 A. Record Retention................................................................................................31 B. Addresses...........................................................................................................31 Part VII.STANDARD PERMIT CONDITIONS..................................................................31 A. Duty to Comply....................................................................................................31 B. Continuation of the Expired General Permit........................................................32 C. Enforcement........................................................................................................32 D. Need to Halt or Reduce Activity Not a Defense...................................................32 E. DutytoMitigate...................................................................................................33 F. Duty to Provide Information.................................................................................33 G. Other Information................................................................................................33 H. Signatory Requirements......................................................................................33 I. PropertyRights...................................................................................................35 J. Severability..........................................................................................................35 (Parc i) Part 1.PERMIT COVERAGE AND LIMITATIONS (��rc�.B.�� deviation or alternative design and provide information which demonstrates that A. Permit Application the deviation or alternative design is equivalen[to the technical standard. This permit authorizes stormwater discharges to surface wa[ers of[he S[a[e from a. Erosion and Sediment Controls.Design,install and maintain effective the following cons[ruc[ion ac[ivi[ies identified within 40 CFR Parts 12226(b)(14)(x), erosion and sediment controls to minimize the discharge of pollu[an[s and 12226(b)(15)(i)and 122.26(b)(15)(ii),provided all of the eligibility provisions of this prevent a violation of the wa[er qualiry s[andards.At a minimum,such permit are met: controls must be designed,installed and maintained to: 1. Cons[ruc[ion ac[ivi[ies involving soil disturbances of one(1)or more acres; (i) Minimize soil erosion through application of runoff control and soil including disturbances of less than one acre that are part of a largercommon stabilization control measure to minimize pollu[an[discharges; plan of developmen[or sale that will ultimately disturb one or more acres of land;excluding rou[ine main[enance ac[iviry that is pertormed to maintain the (ii) Control stormwater discharges,including both peak flowrates and total original line and grade,hydraulic capacity or original purpose of a facility; stormwater volume,to minimize channel and s[reambank erosion and scour in the immediate vicinity of the discharge points; 2. Cons[ruc[ion ac[ivi[ies involving soil disturbances of less than one(1)acre where the Department has determined that a SPDES permit is required for (iii) Minimize the amount of soil exposed during cons[ruc[ion ac[iviry; stormwater discharges based on the potential for contribution to a violation of a wa[er qualiry s[andard or for significant contribution of pollu[an[s to surtace (iv) Minimize the disturbance of s[eep slopes; wa[ers of[he S[a[e. (v) Minimize sediment discharges from the site; 3. Cons[ruc[ion ac[ivi[ies located in the watershed(s)identified in Appendix D that involve soil disturbances between five thousand(5,000)square feet and one (vi) Provide and maintain na[ural buffers around surtace waters,direct (1)acre of land. stormwater to vegetated areas and maximize stormwater infiltration to reduce pollu[an[discharges,unless infeasible; B. Effluent Limitations Applicable to Discharges from Construction Activities (vii) Minimize soil compaction.Minimizing soil compaction is not required where the intended function of a specific area of the site dictates that it Discharges authorized by this permit must achieve, at a minimum, the effluent be compacted; limitations in Part I.B.1.(a)—(f)of this permit.These limitations representthe degree of effluent reduction attainable by the application of best practicable technology currently (viii)Unless infeasible,preserve a sufficient amount of topsoil to complete available. soil restoration and establish a uniform,dense vegetative cover;and 1. ErosionandSedimentControlRequirements-Theowneroropera[ormust select,design,install,implement and maintain control measures to minimize (ix) Minimize dust.On areas of exposed soil,minimize dust through the the discharge of pollu[an[s and prevent a violation of the wa[er quality appropriate application of water or other dust suppression techniques s[andards.The selection,design,installation,implementation,and to control the generation of pollutants that could be discharged from maintenance of these control measures must meet the non-numeric effluent the site. limitations in Part I.B.1.(a)—(f)of this permit and be in accordance with the New York State Standards and Specifications for Erosion and Sediment b. Soil Stabilization.In areas where soil disturbance activity has temporarily Control,dated November 2016,using sound engineering judgment.Where or permanently ceased,the application of soil stabilization measures must control measures are not designed in conformance with the design criteria be initiated by the end of the next business day and completed within included in the technical standard,the owneroropera[or must include in the fourteen(14)days from the date the current soil disturbance activity ceased. S[ormwa[er Pollu[ion Preven[ion Plan("SWPPP")the reason(s)for the For construction sites that direc[ly discharge to one of the 303(d)segments 1 2 (Parc i e�.e) (Parc i.e.�.e.�iip listed in Appendix E or is located in one of the watersheds listed in (iii) Fuels,oils,or other pollu[an[s used in vehicle and equipment operation Appendix C,the application of soil stabilization measures must be initiated and maintenance; by the end of the next business day and completed within seven(7)days from the date the current soil disturbance activity ceased.See Appendix A (iv) Soaps or solvents used in vehicle and equipment washing;and for definition of Temporarily Ceased. (v) Toxic or hazardous substances from a spill or other release. c. Dewatering.Discharges from dewa[ering activities,including discharges from dewa[ering of trenches and excavations,must be managed by f. Surtace Outlets.When discharging from basins and impoundments,the appropriate control measures. outlets shall be designed,constructed and maintained in such a manner that sediment does not leave the basin or impoundment and that erosion at d. Pollution Prevention Measures.Design,install,implement,and maintain or below the outlet does not occur. effective pollution prevention measures to minimize the discharge of C. Post-construction Stormwater Management Practice Requirements pollu[an[s and prevent a violation of the wa[er quality s[andards.At a minimum,such measures must be designed,installed,implemented and 1. The owneroropera[orof a cons[ruc[ion ac[ivirythat requires post-construction maintained to: stormwater management practices pursuant to Part III.C.of this permit must select,design,install,and maintain the practices to meetthe pertormance (i) Minimize the discharge of pollu[an[s from equipment and vehicle cri[eria in the New York State Stormwater Management Design Manual washing,wheel wash water,and other wash waters.This applies to ("Design Manual"),dated January 2015,using sound engineering judgment. washing operations that use clean water only.Soaps,detergents and Where post-construction stormwater management practices("SMPs")are not solvents cannot be used; designed in conformance with the pertormance cri[eria in the Design Manual, the owner or opera[or must include in the SWPPP the reason(s)for the (ii) Minimize the exposure of building materials,building products, deviation or alternative design and provide information which demonstrates that construction wastes,trash,landscape materials,fertilizers,pesticides, the deviation or alternative design is equivalen[to the technical standard. herbicides,detergents,sanitary waste,hazardous and toxic waste,and other materials present on the site to precipitation and to stormwater. 2. The owneror opera[or of a cons[ruc[ion ac[iviry that requires post-construction Minimization of exposure is not required in cases where the exposure stormwater management practices pursuantto Part III.C.of this permit must to precipitation and to stormwater will not result in a discharge of design the practices to meet the applicable sizing cri[eria in Part I.C.2.a.,b.,c. pollu[an[s,or where exposure of a specific material or product poses or d.of this permit. little risk of stormwater contamination(such as final products and materials intended for outdoor use);and a. Sizing Criteria for New Development (iii) Prevent the discharge of pollu[an[s from spills and leaks and (i) Runoff Reduction Volume("RRv"): Reduce the total Water Quality implement chemical spill and leak prevention and response Volume("WQv")by application of RR techniques and standard SMPs procedures. with RRv capacity.The total WQv shall be calculated in accordance with the criteria in Section 4.2 of the Design Manual. e. Prohibited Discharges.The following discharges are prohibited: (ii) Minimum RRv and Treatment of Remaining Total WQv:Construction (i) Wastewater from washout of concrete; activities that cannot meet the criteria in Part I.C.2.a.(i)of this permit due to site limitations shall direct runoff from all newly constructed (ii) Wastewater from washout and cleanout of stucco,paint,form release impervious areas to a RR technique or standard SMP with RRv oils,curing compounds and other construction materials; capacity unless infeasible.The specific site limitations that preventthe reduction of 100%of the WQv shall be documented in the SWPPP. 3 4 (Parc i.cza.�ii) (Parc i c z.e i) For each impervious area that is not directed to a RR technique or calculated in accordance with the criteria in Section 10.3 of the Design standard SMP with RRv capacity,the SWPPP must include Manual. documentation which demonstrates that all options were considered and for each option explains why it is considered infeasible. (ii) Minimum RRv and Treatment of Remaining Total WQv:Cons[ruc[ion In no case shall the runoff reduction achieved from the newly ac[ivi[ies that cannot meet the criteria in Part I.C.2.b.(i)of this permit constructed impervious areas be less than the Minimum RRv as due to si[e limi[a[ions shall direct runoff from all newly constructed calculated using the criteria in Section 4.3 of the Design Manual. impervious areas to a RR technique or standard SMP with RRv The remaining portion of the total WQv that cannot be reduced shall be capacity unless infeasible.The specific si[e limi[a[ions that prevent the treated by application of standard SMPs. reduction of 100%of the WQv shall be documented in the SWPPP. For each impervious area that is not directed to a RR technique or (iii) Channel Protection Volume("Cpv"):Provide 24 hour extended standard SMP with RRv capacity,the SWPPP must include detention of the post-developed 1-year,24-hour storm event; documentation which demonstrates that all options were considered remaining after runoff reduction.The Cpv requirement does not apply and for each option explains why it is considered infeasible. when: In no case shall the runoff reduction achieved from the newly (1)Reduction of the entire Cpv is achieved by application of runoff constructed impervious areas be less than the Minimum RRv as reduction techniques or infiltration systems,or calculated using the criteria in Section 10.3 of the Design Manual. (2)The site discharges directly to tidal waters,or fifth order or larger The remaining portion of the total WQv that cannot be reduced shall be streams. treated by application of standard SMPs. (iv) Overbank Flood Control Criteria("Qp"):Requires storage to attenuate (iii) Channel Protection Volume(Cpv):Provide 24 hour extended detention the post-development 10-year,24-hour peak discharge rate(Qp)to of the post-developed 1-year,24-hour storm event;remaining after predevelopment rates.The Qp requirement does not apply when: runoff reduction.The Cpv requirement does not apply when: (1)the site discharges directly to tidal waters or fifth order or larger (1)Reduction of the entire Cpv is achieved by application of runoff streams,or reduction techniques or infiltration systems,or (2)A downstream analysis reveals that overbank control is not (2)The site discharges directly to tidal waters,or fifth order or larger required. streams. (v) Extreme Flood Control Criteria("Qf"):Requires storage to attenuate (iv) Overbank Flood Control Criteria(Qp):Requires storage to attenuate the post-development 100-year,24-hour peak discharge rate(Qf)to the post-development 10-year,24-hour peak discharge rate(Qp)to predevelopment rates.The Qf requirement does not apply when: predevelopment rates.The Qp requirement does not apply when: (1)the site discharges directly to tidal waters or fifth order or larger (1)the site discharges directly to tidal waters or fifth order or larger streams,or streams,or (2)A downstream analysis reveals that overbank control is not (2)A downstream analysis reveals that overbank control is not required. required. b. Sizing Criteria for New Development in Enhanced Phosphorus (v) Extreme Flood Control Criteria(Qf):Requires storage to attenuate the Removal Watershed post-development 100-year,24-hour peak discharge rate(Qf)to predevelopment rates.The Qf requirement does not apply when: (i) Runoff Reduction Volume(RRv): Reduce the total Water Quality (1)the site discharges directly to tidal waters or fifth order or larger Volume(WQv)by application of RR techniques and standard SMPs streams,or with RRv capacity.The total WQv is the runoff volume from the 1-year, (2)A downstream analysis reveals that overbank control is not 24 hour design storm over the post-developed watershed and shall be required. 5 6 (Pam cz.q (Pam cz.d) c. Sizing Criteria for Redevelopment Activity d. Sizing Criteria for Combination of Redevelopment Activity and New Development (i) Water Quality Volume(WQv):The WQv treatment objective for Construction projects that include both New Development and Redevelopment redevelopmen[ac[ivity shall be addressed by one of the following Activity shall provide post-construction stormwater management controls that options.Redevelopmen[ac[ivi[ies located in an Enhanced Phosphorus Removal Watershed(see Part III.B.3.and Appendix C of this permit) meet the sizing criteria calculated as an aggregate of the Sizing Criteria in Part shall calculate the WQv in accordance with Section 10.3 of the Design I.C.2.a.or b.of this permit for the New Development portion of the project and Manual.All other redevelopmen[ac[ivi[ies shall calculate the WQv in Part I.C.2.c of this permitfor RedevelopmentActivity portion of the project. accordance with Section 42 of the Design Manual. (1)Reduce the existing impervious cover by a minimum of 25%of the D. Maintaining Water Quality total disturbed, impervious area. The Soil Restoration criteria in Section 5.1.6 of the Design Manual must be applied to all newly The Department expects that compliance with the conditions of this permit will control created pervious areas,or discharges necessary to meet applicable wa[er quality s[andards.It shall be a violation (2)Capture and treat a minimum of 25%of the WQv from the disturbed, of the ECL for any discharge to either cause or contribute to a violation of wa[er qualiry impervious area by the application of standard SMPs;or reduce 25% s[andards as contained in Parts 700 through 705 of Title 6 of the Official Compilation of of the WQv from the disturbed,impervious area by the application of Codes,Rules and Regulations of the State of New York,such as: RR techniques or standard SMPs with RRv capacity.,or (3)Capture and treat a minimum of 75%of the WQv from the disturbed, 1. There shall be no increase in turbidity thatwill cause a substantial visible contrast impervious area as well as any additional runoff from tributary areas to natural conditions; by application of the alternative practices discussed in Sections 9.3 and 9.4 of the Design Manual.,or 2. There shall be no increase in suspended,colloidal or settleable solids that will (4)Application of a combination of 1, 2 and 3 above that provide a cause deposition or impair the waters for their best usages;and weighted average of at least two of the above methods.Application of this method shall be in accordance with the criteria in Section 92.1(B)(IV)of the Design Manual. 3. There shall be no residue from oil and floating substances,nor visible oil film,nor globules of grease. If there is an existing post-construction stormwater management practice located on the site that captures and treats runoff from the If there is evidence indicating that the stormwater discharges authorized by this permit impervious area that is being disturbed, the WQv treatment option are causing,have the reasonable potential to cause,or are contributing to a violation of selected must,at a minimum,provide treatment equal to the treatment the wa[er quality s[andards;the owner or opera[or must take appropriate corrective that was being provided by the existing practice(s)if that treatment is action in accordance with Part IV.C.5. of this general permit and document in greater than the treatment required by options 1—4 above. accordance with Part IV.C.4. of this general permit. To address the wa[er quality s[andard violation the owner or opera[or may need to provide additional information, (ii) Channel Protection Volume(Cpv): Not required if there are no include and implement appropriate controls in the SWPPP to correct the problem,or changes to hydrology that increase the discharge rate from the project obtain an individual SPDES permit. site. If there is evidence indicating that despite compliance with the terms and conditions of this general permit it is demonstrated that the stormwater discharges authorized by this (iii) Overbank Flood Control Criteria(Qp):Not required if there are no permit are causing or contributing to a violation of wa[er quality s[andards,or if the changes to hydrology that increase the discharge rate from the project Department determines that a modification of the permit is necessary to prevent a site. violation of wa[er qualiry s[andards,the authorized discharges will no longer be eligible for coverage underthis permit. The Department may require the owneroropera[orto (iv) Extreme Flood Control Criteria(Qf):Not required if there are no obtain an individual SPDES permitto continue discharging. changes to hydrology that increase the discharge rate from the project site 7 8 (Parc i.e) (Parc i F a) E. Eligibility Under This General Permit opera[or has obtained a permit issued pursuantto 6 NYCRR Part 182 forthe project or the Department has issued a letter of non-jurisdiction for the project. 1. This permit may authorize all discharges of stormwaterfrom cons[ruc[ion All documentation necessary to demonstrate eligibility shall be maintained on ac[ivity to surtace wa[ers of[he S[a[e and groundwa[ers except for ineligible site in accordance with Part II.D2 of this permit; discharges identified under subparagraph F.of this Part. 5. Discharges which either cause or contribute to a violation of wa[er qualiry 2. Except for non-stormwater discharges explicitly listed in the next paragraph, s[andards adopted pursuant to the ECL and its accompanying regulations; this permit only authorizes stormwater discharges;including stormwater runoff, snowmelt runoff,and surtace runoff and drainage,from cons[ruc[ion ac[ivi[ies. 6. Cons[ruc[ion ac[ivi[ies for residential,commercial and institutional projects: 3. Notwithstanding paragraphs E.1 and E2 above,the following non-stormwater a. Where the discharges from the cons[ruc[ion ac[ivi[ies are tributary to waters discharges are authorized by this permit: those listed in 6 NYCRR 750- of the state classified as AA or AA-s;and 1.2(a)(29)(vi),with the following exception:"Discharges from firefighting activities are authorized only when the firefighting activities are b. Which are undertaken on land with no existing impervious cover,and emergencies/unplanned";waters to which other components have not been added that are used to control dust in accordance with the SWPPP;and c. Which disturb one(1)or more acres of land designated on the current uncontaminated discharges from cons[ruc[ion si[e de-watering operations.All United States Department of Agriculture("USDA")Soil Survey as Soil non-stormwater discharges must be identified in the SWPPP. Under all Slope Phase"D",(provided the map unit name is inclusive of slopes greater circumstances,the owneror opera[or must still comply with wa[er quality than 25%),or Soil Slope Phase"E"or"F"(regardless of the map unit s[andards in Part I.D of this permit. name),or a combination of the three designations. 4. The owneroropera[or must maintain permit eligibility to discharge under this 7. Cons[ruc[ion ac[ivi[ies for linear transportation projects and linear utility permit. Any discharges that are not compliant with the eligibility conditions of projects: this permit are not authorized by the permit and the owneroropera[or must either apply for a separate permitto cover those ineligible discharges ortake a. Where the discharges from the cons[ruc[ion ac[ivi[ies are tributary to waters steps necessary to make the discharge eligible for coverage. of the state classified as AA or AA-s;and F. Activities Which Are Ineligible for Coverage Under This General Permit b. Which are undertaken on land with no existing impervious cover,and All of the following are not authorized by this permit: 1. Discharges after conshuc[ion ac[ivi[ies have been completed and the site has c.Which disturb two(2)or more acres of land designated on the current USDA undergone final s[abiliza[ion; Soil Survey as Soil Slope Phase"D"(provided the map unit name is inclusive of slopes greater than 25%),or Soil Slope Phase"E"or"F"(regardless of the map 2. Discharges that are mixed with sources of non-stormwater other than those unit name),or a combination of the three designations. expressly authorized under subsection E.3.of this Part and identified in the SWPPP required by this permit; 3. Discharges that are required to obtain an individual SPDES permit or another SPDES general permit pursuant to Part VII.K.of this permit; 4. Cons[ruc[ion ac[ivi[ies or discharges from conshuc[ion ac[ivi[ies that may adversely affect an endangered or[hrea[ened species unless the owneror 9 10 (Parc i F.a) (Parc i.F a.q 8. Cons[ruc[ion ac[ivi[ies that have the potential to affect an his[oric property, (i) No Affect unless there is documentation that such impacts have been resolved.The (ii) No Adverse Affect following documentation necessary to demonstrate eligibility with this (iii) Executed Memorandum of Agreement,or requirement shall be maintained on site in accordance with Part II.D.2 of this permit and made available to the Department in accordance with Part VII.F of d. Documentation that: this permit: (i) SHPA Section 14.09 has been completed by NYS DEC or another state a. Documentation that the cons[ruc[ion ac[ivity is not within an archeologically agency. sensitive area indicated on the sensitivity map,and that the cons[ruc[ion ac[ivity is not located on or immediately adjacent to a property listed or 9. Discharges from conshuc[ion ac[ivi[ies that are subject to an existing SPDES determined to be eligible for listing on the National or State Registers of individual or general permit where a SPDES permitfor cons[ruc[ion ac[iviry has Historic Places,and that there is no new permanent building on the been terminated or denied;or where the owneroropera[orhas failed to renew cons[ruc[ion si[e within the following distances from a building,structure,or an expired individual permit. object that is more than 50 years old,or if there is such a new permanent building on the cons[ruc[ion si[e within those parameters that NYS Office of Parks,Recreation and Historic Preservation(OPRHP),a Historic Part II.PERMIT COVERAGE Preservation Commission of a Certified Local Government,or a qualified A. How to Obtain Coverage preservation professional has determined that the building,structure,or object more than 50 years old is not historically/archeologically significant. 1. An owneror opera[or of a cons[ruc[ion ac[iviry that is not subject to the requirements of a regulated,traditional land use control MS4 must first prepare • 1-5 acres of disturbance-20 feet a SWPPP in accordance with all applicable requirements of this permit and • 5-20 acres of disturbance-50 feet then submit a completed Notice of Intent(NOI)to the Department to be • 20+acres of disturbance-100 feet,or authorized to discharge under this permit. b. DEC consultation form sent to OPRHP,and copied to the NYS DEC Agency 2. An owneror opera[or of a cons[ruc[ion ac[iviry that is subject to the Historic Preservation Officer(APO),and requirements of a regula[ed,[radi[ional land use conhol MS4 must first prepare (i) the State Environmental Quality Review(SEQR)Environmental a SWPPP in accordance with all applicable requirements of this permit and Assessment Form(EAF)with a negative declaration or the Findings then have the SWPPP reviewed and accepted by the regula[ed,[radi[ional land Statement,with documentation of OPRHP's agreement with the use conhol MS4 prior to submitting the NOI to the Department.The owner or resolution;or opera[orshall have the"MS4 SWPPP Acceptance"form signed in accordance (ii) documentation from OPRHP thatthe cons[ruc[ion ac[ivirywill result in with Part VII.H.,and then submitthatform along with a completed NOI to the No Impact;or Department. (iii) documentation from OPRHP providing a determination of No Adverse Impact;or 3. The requirementfor an owneroropera[orto have its SWPPP reviewed and (iv) a Letter of Resolution signed by the owner/operator,OPRHP and the accepted by the regula[ed,[radi[ional land use conhol MS4 prior to submitting DEC APO which allows for this cons[ruc[ion ac[iviry to be eligible for the NOI to the Department does not apply to an owner or opera[orthat is coverage under the general permit in terms of the State Historic obtaining permit coverage in accordance with the requirements in Part II.F. Preservation Act(SHPA);or (Change of Owner or Opera[or)or where the owner or opera[orof the cons[ruc[ion ac[ivity is the regula[ed,hadi[ional land use conhol MS4. This c. Documentation of satisfactory compliance with Section 106 of the National exemption does not apply to cons[ruc[ion ac[ivi[ies subject to the New York City Historic Preservation Actfor a coterminous project area: Administrative Code. 11 12 (Parcu e) (Parcu cz.e) B. Notice of Intent(NOI)Submittal must submit a preliminary SWPPP to the appropriate DEC Permit Administrator atthe Regional Office listed in Appendix F atthe time all other 1. Prior to December 21,2020,an owner or operator shall use either the necessary UPA permit applications are submitted.The preliminary SWPPP electronic(eN01)or paperversion of the NOI thatthe Department prepared. must include sufficient information to demonstrate thatthe cons[ruc[ion Both versions of the NOI are located on the DepartmenYs website ac[ivityqualifies for authorization under this permit, (http://www.dec.ny.gov/).The paper version of the NOI shall be signed in accordance with Part VII.H.of this permit and submitted to the following c. the final SWPPP has been prepared,and address: d. a complete NOI has been submitted to the Department in accordance with NOTICE OF INTENT the requirements of this permit. NYS DEC,Bureau of Water Permits 625 Broadway,4�^Floor 3. An owneroropera[orthat has satisfied the requirements of Part II.C.2 above Albany,New York 12233-3505 will be authorized to discharge stormwater from their cons[ruc[ion ac[iviry in accordance with the following schedule: 2. Beginning December 21, 2020 and in accordance with EPA's 2015 NPDES Electronic Reporting Rule(40 CFR Part 127),the owneroropera[ormust submit a. For cons[ruc[ion ac[ivi[ies that are not subject to the requirements of a the NOI electronically using the Departmen['s online NOI. regula[ed,[radi[ional land use con[rol MS4: 3. The owner or opera[or shall have the SWPPP preparer sign the "SWPPP Preparer Certification"statement on the NOI prior to submitting the form to the (i) Five(5)business days from the date the Department receives a Department. complete electronic version of the NOI(eN01)for cons[ruc[ion ac[ivi[ies with a SWPPP that has been prepared in conformance with the design 4. As of the date the NOI is submitted to the Department,the owner or opera[or criteria in the technical standard referenced in Part III.B.1 and the shall make the NOI and SWPPP available for review and copying in accordance pertormance cri[eria in the technical standard referenced in Parts III.B., with the requirements in Part VII.F.of this permit. 2 or 3,for cons[ruc[ion ac[ivi[ies that require post-construction stormwater management practices pursuant to Part III.C.;or C. PermitAuthorization (ii) Sixty(60)business days from the date the Department receives a 1. An owneror opera[or shall not commence conshuc[ion ac[iviry until their complete NOI(electronic or paper version)for cons[ruc[ion ac[ivi[ies authorization to discharge under this permit goes into effect. with a SWPPP that has not been prepared in conformance with the design criteria in technical standard referenced in Part III.B.1.or,for 2. Authorization to discharge under this permit will be effective when the owneror cons[ruc[ion ac[ivi[ies that require post-construction stormwater opera[or has satisfied all of the following criteria: management practices pursuant to Part III.C.,the pertormance cri[eria in the technical standard referenced in Parts III.B.,2 or 3,or; a. project review pursuant to the State Environmental Quality Review Act ("SEQRA")have been satisfied,when SEQRA is applicable.See the (iii) Ten(10)business days from the date the Department receives a DepartmenYs website(http://www.dec.nv.aov/)for more information, complete paper version of the NOI for cons[ruc[ion ac[ivi[ies with a SWPPP that has been prepared in conformance with the design b. where required,all necessary Department permits subjectto the Uniform criteria in the technical standard referenced in Part III.B.1 and the Procedures Ac[(`UPA")(see 6 NYCRR Part 621),or the equivalent from pertormance cri[eria in the technical standard referenced in Parts III.B., another New York State agency,have been obtained,unless otherwise 2 or 3,for cons[ruc[ion ac[ivi[ies that require post-construction notified by the Department pursuant to 6 NYCRR 621.3(a)(4).Owners or stormwater management practices pursuant to Part I I I.C. opera[ors of cons[ruc[ion ac[ivi[ies that are required to obtain UPA permits 13 14 (Part II C 3.b) (Part II.D 3) b. For cons[ruc[ion ac[ivi[ies that are subject to the requirements of a use conhol MS4,the regula[ed,hadi[ional land use conhol MS4(provided the regula[ed,[radi[ional land use con[rol MS4: regula[ed,[radi[ional land use con[rol MS4 is not the owneror opera[or of the cons[ruc[ion ac[iviry).At a minimum,the owneror operaror must comply with (i) Five(5)business days from the date the Department receives both a the following requirements in order to be authorized to disturb greater than five complete electronic version of the NOI(eN01)and signed"MS4 (5)acres of soil at any one time: SWPPP Acceptance"form,or a. The owneroropera[orshall have a qualified inspec[orconduct at least two (ii) Ten(10)business days from the date the Department receives both a (2)site inspections in accordance with Part IV.C.of this permit every seven complete paper version of the NOI and signed"MS4 SWPPP (7)calendar days,for as long as greater than five(5)acres of soil remain Acceptance"form. disturbed.The two(2)inspections shall be separated by a minimum of two (2)full calendar days. 4. Coverage under this permit authorizes stormwater discharges from only those areas of disturbance that are identified in the NOI.If an owneroropera[or b. In areas where soil disturbance activity has temporarily or permanently wishes to have stormwater discharges from future or additional areas of ceased,the application of soil stabilization measures must be initiated by disturbance authorized,they must submit a new NOI that addresses that phase the end of the next business day and completed within seven(7)days from of the development,unless otherwise notified by the Department.The owneror the date the current soil disturbance activity ceased.The soil stabilization opera[or shall not commence cons[ruc[ion ac[ivity on the future or additional measures selected shall be in conformance with the technical standard, areas until their authorization to discharge under this permit goes into effect in New York State Standards and Specifications for Erosion and Sediment accordance with Part II.C.of this permit. Control,dated November 2016. D. General Requirements For Owners or Operators With Permit Coverage c. The owneroropera[orshall prepare a phasing plan that defines maximum 1. The owneroropera[orshall ensure thatthe provisions of the SWPPP are disturbed area per phase and shows required cuts and fills. implemented from the commencemen[ofcons[ruc[ion ac[ivity until all areas of d. The owneroropera[orshall install any additional site-specific practices disturbance have achieved final s[abiliza[ion and the Notice of Termination needed to protectwater quality. ("NOT")has been submitted to the Department in accordance with Part V.of this permit.This includes any changes made to the SWPPP pursuantto Part e. The owneroropera[orshall include the requirements above in their III.A.4.of this permit. SWPPP 2. The owneror opera[or shall maintain a copy of the General Permit(GP-0-20- 4. In accordance with statute,regulations,and the terms and conditions of this 001),NOI,NOI Acknowledgmen[Le[[er,SWPPP,MS4 SWPPP Acceptance permit,the Department may suspend or revoke an owner's oropera[or's form,inspection reports,responsible contractor's or subcontractor's certification coverage under this permit at any time if the Department determines thatthe statement(see Part III.A.6.),and all documentation necessary to demonstrate SWPPP does not meetthe permit requirements or consistentwith Part VII.K.. eligibility with this permit at the cons[ruc[ion si[e until all disturbed areas have achieved final s[abiliza[ion and the NOT has been submitted to the Department. 5. Upon a finding of significant non-compliance with the practices described in the The documents must be maintained in a secure location,such as a job trailer, SWPPP or violation of this permit,the Department may order an immediate on-site construction office,or mailbox with lock.The secure location must be stop to all activity at the site until the non-compliance is remedied.The stop accessible during normal business hours to an individual performing a work order shall be in writing,describe the non-compliance in detail,and be compliance inspection. sent to the owner or opera[or. 3. The owneror opera[or of a cons[ruc[ion ac[iviry shall not disturb greater than 6. For cons[ruc[ion ac[ivi[ies that are subject to the requirements of a regula[ed, five(5)acres of soil at any one time without prior written authorization from the [radi[ional land use con[rol MS4,the owneroropera[or shall notify the Departmentor,in areas underthejurisdiction of a regula[ed,[radi[ionalland 15 16 (Part I I.D.6) (Part II F 3) regula[ed,[radi[ional land use con[rol MS4 in writing of any planned opera[orwas not subject to a sixty(60)business day authorization period that amendments or modifications to the post-construction stormwater management has not expired as of the date the Department receives the NOI from the new practice component of the SWPPP required by Part III.A.4.and 5.of this owner or opera[or. permit.Unless otherwise notified by the regula[ed,hadi[ional land use conhol MS4,the owneroropera[orshall have the SWPPP amendments or modifications reviewed and accepted by the regula[ed,[radi[ional land use Part III.STORMWATER POLLUTION PREVENTION PLAN(SWPPP) con[rol MS4 prior to commencing construction of the post-construction stormwater management practice. A. General SWPPP Requirements E. Permit Coverage for Discharges Authorized Under GP-0-15-002 1. A SWPPP shall be prepared and implemented by the owneroropera[orof each cons[ruc[ion ac[ivity covered by this permit.The SWPPP must document 1. Upon renewal of SPDES General Permitfor Stormwater Discharges from the selection,design,installation,implementation and maintenance of the Cons[ruc[ion Ac[ivity(Permit No.GP-0-15-002),an owneroropera[orof a control measures and practices that will be used to meet the effluent limitations cons[ruc[ion ac[ivitywith coverage under GP-0-15-002,as of the effective date in Part I.B.of this permit and where applicable,the post-construction of GP-0-20-001,shall be authorized to discharge in accordance with GP-0-20- stormwater management practice requirements in Part I.C.of this permit.The 001,unless otherwise notified by the Department. SWPPP shall be prepared priorto the submittal of the NOI.The NOI shall be submitted to the Department prior to the commencemen[of cons[ruc[ion An owneroropera[or may continue to implement the technical/design ac[ivity.A copy of the completed,final NOI shall be included in the SWPPP. components of the post-construction stormwater management controls provided that such design was done in conformance with the technical 2. The SWPPP shall describe the erosion and sediment control practices and standards in place atthe time of initial project authorization.However,they where required,post-construction stormwater management practices thatwill must comply with the other,non-design provisions of GP-0-20-001. be used and/or constructed to reduce the pollu[an[s in stormwater discharges F. Change of Owner or Operator and to assure compliance with the terms and conditions of this permit.In addition,the SWPPP shall identify potential sources of pollution which may 1. When property ownership changes or when there is a change in operational reasonably be expected to affect the quality of stormwater discharges. control overthe construction plans and specifications,the original owneror opera[or must notify the new owneror opera[or,in writinq,of the requirement to 3. All SWPPPs that require the post-construction stormwater management obtain permit coverage by submitting a NOI with the Department.For practice component shall be prepared by a qualified professional that is cons[ruc[ion ac[ivi[ies subject to the requirements of a regula[ed,[radi[ional knowledgeable in the principles and practices of stormwater management and land use con[rol MS4,the original owneror opera[or must also notify the MS4, treatment. in writing,of the change in ownership at least 30 calendar days prior to the change in ownership. 4. The owneror opera[or must keep the SWPPP current so that it at all times accurately documents the erosion and sediment controls practices that are 2. Once the new owneroropera[orobtains permit coverage,the original owneror being used orwill be used during construction,and all post-construction opera[or shall then submit a completed NOT with the name and permit stormwater management practices that will be constructed on the site. At a identification number of the new owneroropera[orto the Department atthe minimum,the owneroropera[orshall amend the SWPPP,including address in Part II.B.1.of this permit.If the original owneroropera[or maintains construction drawings: ownership of a portion of the cons[ruc[ion ac[iviry and will disturb soil,they must maintain their coverage under the permit. a. whenever the current provisions prove to be ineffective in minimizing pollu[an[s in stormwater discharges from the site; 3. Permit coverage for the new owneror opera[orwill be effective as of the date the Department receives a complete NOI,provided the original owneror 17 18 (Parc m.n a.e) (Parc u i.n.$) b. whenever there is a change in design,construction,or operation at the the terms and conditions of the most current version of the New York State cons[ruc[ion si[e that has or could have an effect on the discharge of Pollutant Discharge Elimination System("SPDES")general permit for pollu[an[s; stormwater discharges from cons[ruc[ion ac[ivi[ies and that it is unlawful for any person to cause or contribute to a violation of wa[erqualitys[andards. c. to address issues or deficiencies identified during an inspection by the Furthermore,I am aware thatthere are significant penalties for submitting qualified inspec[or,the Department or other regulatory authority;and false information,that I do not believe to be true,including the possibility of fine and imprisonment for knowing violations" d. to documentthe final construction conditions. In addition to providing the certification statement above,the certification page 5. The Department may notify the owneror opera[or at any time that the SWPPP must also identify the specific elements of the SWPPP that each contractor and does not meet one or more of the minimum requirements of this permit.The subcontractor will be responsible for and include the name and title of the notification shall be in writing and identify the provisions of the SWPPP that person providing the signature;the name and title of the[rained con[rac[or require modification.Within fourteen(14)calendar days of such notification,or responsible for SWPPP implementation;the name,address and telephone as otherwise indicated by the Department,the owner or opera[or shall make number of the contracting firm;the address(or other identifying description)of the required changes to the SWPPP and submitwritten notification to the the site;and the date the certification statement is signed.The owneror Department that the changes have been made.If the owneror opera[or does opera[or shall attach the certification statement(s)to the copy of the SWPPP not respond to the DepartmenYs comments in the specified time frame,the that is maintained at the cons[ruc[ion si[e.If new or additional contractors are Department may suspend the owner's or opera[or's coverage under this permit hired to implement measures identified in the SWPPP after construction has or require the owneroropera[orto obtain coverage under an individual SPDES commenced,they must also sign the certification statement and provide the permit in accordance with Part II.D.4.of this permit. information listed above. 6. Prior to the commencemen[of conshuc[ion ac[iviry,the owneror opera[or must 7. For projects where the Department requests a copy of the SWPPP or identify the contractor(s)and subcontractor(s)that will be responsible for inspection reports,the owner or opera[orshall submit the documents in both installing,constructing,repairing,replacing,inspecting and maintaining the electronic(PDF only)and paper formatwithin five(5)business days,unless erosion and sediment control practices included in the SWPPP;and the otherwise notified by the Department. contractor(s)and subcontractor(s)that will be responsible for constructing the post-construction stormwater management practices included in the SWPPP. The owneroropera[orshall have each of the contractors and subcontractors B. Required SWPPP Contents identify at least one person from their company that will be responsible for 1. Erosion and sediment control component-All SWPPPs prepared pursuantto implementation of the SWPPP.This person shall be known as the[rained this permit shall include erosion and sediment control practices designed in con[rac[or.The owneror opera[orshall ensure that at least one[rained conformance with the technical standard,New York State Standards and con[rac[or is on site on a daily basis when soil disturbance activities are being Specifications for Erosion and Sediment Control,dated November 2016.Where pertormed. erosion and sediment control practices are not designed in conformance with The owneroropera[orshall have each of the contractors and subcontractors the design criteria included in the technical standard,the owneroropera[or must demonstrate equivalence to the technical standard.At a minimum,the identified above sign a copy of the following certification statement below erosion and sediment control component of the SWPPP shall include the before they commence any cons[ruc[ion ac[ivity: following: "I hereby certify under penalty of law that I understand and agree to comply a. Background information aboutthe scope of the project,including the with the terms and conditions of the SWPPP and agree to implement any location,type and size of project corrective actions identified by the qualified inspec[or during a site inspection. I also understand that the owneroropera[or must comply with 19 20 (Parc w e�.e) (Parc w e.tp b. A site map/construction drawing(s)for the project,including a general schedule shall be in accordance with the requirements in the technical location map.At a minimum,the site map shall show the total site area;all standard,New York State Standards and Specifications for Erosion and improvements;areas of disturbance;areas that will not be disturbed; Sediment Control,dated November 2016; existing vegetation;on-site and adjacent off-site surtace water(s); floodplain/floodway boundaries;wetlands and drainage patterns that could j. A description of the pollution prevention measures thatwill be used to be affected by the conshuc[ion ac[iviry;existing and final contours; control litter,construction chemicals and construction debris from becoming locations of different soil types with boundaries;material,waste,borrow or a pollu[an[source in the stormwater discharges; equipment storage areas located on adjacent properties;and location(s)of the stormwater discharge(s); k. A description and location of any stormwater discharges associated with industrial activity other than construction at the site,including,but not limited c. A description of the soil(s)present at the site,including an identification of to,stormwater discharges from asphalt plants and concrete plants located the Hydrologic Soil Group(HSG); on the cons[ruc[ion si[e;and d. A construction phasing plan and sequence of operations describing the I. Identification of any elements of the design that are not in conformance with intended order of conshuc[ion ac[ivi[ies,including clearing and grubbing, the design criteria in the technical standard,New York State Standards and excavation and grading,utility and infrastructure installation and any other Specifications for Erosion and Sediment Control,dated November 2016. activity at the site that results in soil disturbance; Include the reason for the deviation or alternative design and provide information which demonstrates thatthe deviation or alternative design is e. A description of the minimum erosion and sediment control practices to be equivalen[to the technical standard. installed or implemented for each cons[ruc[ion ac[ivity that will result in soil disturbance.Include a schedule that identifies the timing of initial placement 2. Post-construction stormwater management practice component—The owneror or implementation of each erosion and sediment control practice and the opera[or of any construction project identified in Table 2 of Appendix B as minimum time frames that each practice should remain in place or be needing post-construction stormwater management practices shall prepare a implemented; SWPPP that includes practices designed in conformance with the applicable sizing cri[eria in Part LC2.a.,c.or d.of this permit and the pertormance cri[eria f. A temporary and permanent soil stabilization plan that meets the in the technical standard,New York State Stormwater Management Design requirements of this general permit and the technical standard,New York Manual dated January 2015 State Standards and Specifications for Erosion and Sediment Control,dated November 2016,for each stage of the project,including initial land clearing Where post-construction stormwater management practices are not designed and grubbing to project completion and achievement of final s[abiliza[ion; in conformance with the pertormance cri[eria in the technical standard,the owner or opera[or must include in the SWPPP the reason(s)for the deviation or g. A site map/construction drawing(s)showing the specific location(s),size(s), alternative design and provide information which demonstrates that the and length(s)of each erosion and sediment control practice; deviation or alternative design is equivalen[to the technical standard. h. The dimensions,material specifications,installation details,and operation The post-construction stormwater management practice component of the and maintenance requirements for all erosion and sediment control SWPPP shall include the following: practices.Include the location and sizing of any temporary sediment basins and structural practices that will be used to divert flows from exposed soils; a. Identification of all post-construction stormwater management practices to be constructed as part of the project.Include the dimensions,material i. A maintenance inspection schedule forthe contractor(s)identified in Part specifications and installation details for each post-construction stormwater III.A.6.of this permit,to ensure continuous and effective operation of the management practice; erosion and sediment control practices.The maintenance inspection 21 22 (Part I II B 2.b) (Part II I.B 3) b. A site map/construction drawing(s)showing the specific location and size of 3. Enhanced Phosphorus Removal Standards-All construction projects identified each post-construction stormwater management practice; in Table 2 of Appendix B that are located in the watersheds identified in Appendix C shall prepare a SWPPP that includes post-construction stormwater c. A Stormwater Modeling and Analysis Report that includes: management practices designed in conformance with the applicable sizing (i) Map(s)showing pre-development conditions,including cri[eria in Part LC2.b.,c.or d.of this permit and the pertormance cri[eria, watershed/subcatchments boundaries,flow paths/routing,and design Enhanced Phosphorus Removal Standards included in the Design Manual.At a points; minimum,the post-construction stormwater management practice component of the SWPPP shall include items 2.a-2.f.above. (ii) Map(s)showing post-development conditions,including C. Required SWPPP Components by Project Type watershed/subcatchments boundaries,flow paths/routing,design points and post-construction stormwater management practices; Unless otherwise notified by the Department, owners or opera[ors of cons[ruc[ion ui Results of stormwater modelin i e.h drolo and h draulic anal sis ac[ivi[ies identified in Table 1 of Appendix B are required to prepare a SWPPP that only � � g�� Y gY Y Y � includes erosion and sediment control practices designed in conformance with Part for the required storm events.I nclude supporting calculations(model I II.B.1 of this perm it.Owners oropera[ors of the cons[ruc[ion ac[ivi[ies identified in Table runs),methodology,and a summary table that compares pre and post- 2 of Appendix B shall prepare a SWPPP thatalso includes post-construction stormwater development runoff rates and volumes for the different storm events; management practices designed in conformance with Part III.B2 or 3 of this permit. (iv) Summary table,with supporting calculations,which demonstrates that each post-construction stormwater management practice has been Part IV.INSPECTION AND MAINTENANCE REQUIREMENTS designed in conformance with the sizing cri[eria included in the Design Manual; A. General Construction Site Inspection and Maintenance Requirements (v) Identification of any sizing cri[eria that is not required based on the 1. The owneror opera[or must ensure that all erosion and sediment control requirements included in Part I.C.of this permit;and practices(including pollution prevention measures)and all post-construction (vi) Identification of any elements of the design that are not in conformance stormwater management practices identified in the SWPPP are inspected and with the pertormance cri[eria in the Design Manual. Include the maintained in accordance with Part IV.B.and C.of this permit. reason(s)for the deviation or alternative design and provide 2. The terms of this permit shall not be construed to prohibit the State of New information which demonstrates that the deviation or alternative design York from exercising any authority pursuant to the ECL,common law or federal is equivalen[to the Design Manual; law,or prohibit New York State from taking any measures,whether civil or d. Soil testing results and locations(test pits,borings); criminal,to prevent violations of the laws of the State of New York or protect the public health and safety and/or the environment. e. Infiltration test results,when required;and B. Contractor Maintenance Inspection Requirements f. An operations and maintenance plan that includes inspection and maintenance schedules and actions to ensure continuous and effective 1. The owneroropera[orof each cons[ruc[ion ac[ivity identified in Tables 1 and 2 operation of each post-construction stormwater management practice.The of Appendix B shall have a[rained con[rac[or inspect the erosion and sediment plan shall identify the entity thatwill be responsible for the long term control practices and pollution prevention measures being implemented within operation and maintenance of each practice. the active work area daily to ensure that they are being maintained in effective operating condition at all times.If deficiencies are identified,the contractor shall 23 24 (Parc iv e.�) (Parc iv c�a) begin implementing corrective actions within one business day and shall in one of the watersheds listed in Appendix C and not directly discharging to complete the corrective actions in a reasonable time frame. one of the 303(d)segments listed in Appendix E; 2. For construction sites where soil disturbance activities have been temporarily b. the construction of a single family home that involves a soil disturbance of suspended(e.g.winter shutdown)and[emporary s[abiliza[ion measures have one(1)or more acres of land but less than five(5)acres and is not located been applied to all disturbed areas,the[rained con[rac[orcan stop conducting in one of the watersheds listed in Appendix C and not directly discharging to the maintenance inspections.The hained con[rac[orshall begin conducting the one of the 303(d)segments listed in Appendix E; maintenance inspections in accordance with Part IV.B.1.of this permit as soon as soil disturbance activities resume. c. construction on agricultural property that involves a soil disturbance of one (1)or more acres of land but less than five(5)acres;and 3. For construction sites where soil disturbance activities have been shut down with partial project completion,the[rained con[rac[orcan stop conducting the d. cons[ruc[ion ac[ivi[ies located in the watersheds identified in Appendix D maintenance inspections if all areas disturbed as of the project shutdown date that involve soil disturbances between five thousand(5,000)square feet have achieved final s[abiliza[ion and all post-construction stormwater and one(1)acre of land. management practices required for the completed portion of the project have been constructed in conformance with the SWPPP and are operational. 2. Unless otherwise notified by the Department,the qualified inspec[orshall C. Qualified Inspector Inspection Requirements conduct site inspections in accordance with the following timetable: The owner or opera[or shall have a qualified inspec[or conduct site inspections in a. For construction sites where soil disturbance activities are on-going,the conformance with the following requirements: qualified inspec[orshall conduct a site inspection at least once every seven (7)calendar days. [Note:The[rained con[rac[or identified in Part III.A.6.and IV.B.of this permit cannot conduct the qualified inspec[orsite inspections unless they meet the qualified inspec[or b. For construction sites where soil disturbance activities are on-going and the qualifications included in Appendix A.In orderto perform these inspections,the[rained owneroropera[orhas received authorization in accordance with Part II.D.3 con[rac[orwould have to be a: to disturb greater than five(5)acres of soil at any one time,the qualified inspec[orshall conduct at leasttwo(2)site inspections every seven(7) • licensed Professional Engineer, calendar days.The two(2)inspections shall be separated by a minimum of • Certified Professional in Erosion and Sediment Control(CPESC), two(2)full calendar days. • New York State Erosion and Sediment Control Certificate Program holder • Registered Landscape Architect,or c. For construction sites where soil disturbance activities have been • someone working under the direct supervision of,and atthe same company as, temporarily suspended(e.g.winter shutdown)and[emporary s[abiliza[ion the licensed Professional Engineer or Registered Landscape Architect,provided measures have been applied to all disturbed areas,the qualified inspec[or they have received four(4)hours of Department endorsed training in proper shall conduct a site inspection at least once every thirty(30)calendar days. erosion and sediment control principles from a Soil and Water Conservation The owneroropera[orshall notify the DOW Water(SPDES)Program District,or other Department endorsed entity]. contact at the Regional Office(see contact information in Appendix F)or,in areas under the jurisdiction of a regula[ed,hadi[ional land use con[rol MS4, 1. A qualified inspec[or shall conduct site inspections for all cons[ruc[ion ac[ivi[ies the regula[ed,hadi[ional land use conhol MS4(provided the regula[ed, identified in Tables 1 and 2 of Appendix B,with the exception of: [radi[ional land use con[rol MS4 is not the owneror opera[or of the cons[ruc[ion ac[iviry)in writing prior to reducing the frequency of a. the construction of a single family residential subdivision with 25%or less inspections. impervious coverat total site build-out that involves a soil disturbance of one(1)or more acres of land but less than five(5)acres and is not located 25 26 (Parc iv cz.d) (Parc iv ca a) d. For construction sites where soil disturbance activities have been shut down a. Date and time of inspection; with partial project completion,the qualified inspec[orcan stop conducting inspections if all areas disturbed as of the project shutdown date have b. Name and title of person(s)pertorming inspection; achieved final s[abiliza[ion and all post-construction stormwater management practices required for the completed portion of the project c. A description of the weather and soil conditions(e.g.dry,wet,saturated)at have been constructed in conformance with the SWPPP and are the time of the inspection; operational.The owneroropera[orshall notify the DOW Water(SPDES) Program contact at the Regional Office(see contact information in Appendix d. A description of the condition of the runoff at all points of discharge from the F)or,in areas under the jurisdiction of a regula[ed,[radi[ional land use cons[ruc[ion si[e.This shall include identification of any discharges of con[rol MS4,the regula[ed,[radi[ionalland use conhol MS4(provided the sedimentfrom the conshuc[ion si[e.Include dischargesfrom conveyance regula[ed,[radi[ionalland use con[rol MS4 is notthe owneroropera[or of systems(i.e.pipes,culverts,ditches,etc.)and overland flow; the cons[ruc[ion ac[iviry)in writing prior to the shutdown.If soil disturbance activities are not resumed within 2 years from the date of shutdown,the e. A description of the condition of all natural surtace waterbodies located owneroropera[orshall have the qualified inspec[orpertorm a final within,or immediately adjacentto,the property boundaries of the inspection and certify that all disturbed areas have achieved final cons[ruc[ion si[e which receive runoff from disturbed areas.This shall s[abiliza[ion,and all temporary,structural erosion and sediment control include identification of any discharges of sedimentto the surtace measures have been removed;and that all post-construction stormwater waterbody; management practices have been constructed in conformance with the SWPPP by signing the"Final S[abiliza[ion"and"Post-Construction f. Identification of all erosion and sediment control practices and pollution Stormwater Management Practice"certification statements on the NOT.The prevention measures that need repair or maintenance; owneroropera[orshall then submitthe completed NOT form to the address in Part II.B.1 of this permit. g. Identification of all erosion and sediment control practices and pollution prevention measures thatwere not installed properly or are notfunctioning e. For construction sites that directly discharge to one of the 303(d)segments as designed and need to be reinstalled or replaced; listed in Appendix E or is located in one of the watersheds listed in Appendix C,the qualified inspec[or shall conduct at least two(2)site h. Description and sketch of areas with active soil disturbance activity,areas inspections every seven(7)calendar days.The two(2)inspections shall be that have been disturbed but are inactive at the time of the inspection,and separated by a minimum of two(2)full calendar days. areas that have been stabilized(temporary and/or final)since the last inspection; 3. At a minimum,the qualified inspec[orshall inspect all erosion and sediment control practices and pollution prevention measures to ensure integrity and i. Current phase of construction of all post-construction stormwater effectiveness,all post-construction stormwater management practices under management practices and identification of all construction that is not in construction to ensure that they are constructed in conformance with the conformance with the SWPPP and technical standards; SWPPP,all areas of disturbance that have not achieved final s[abiliza[ion,all points of discharge to natural surface waterbodies located within,or j. Corrective action(s)that must be taken to install,repair,replace or maintain immediately adjacent to,the property boundaries of the cons[ruc[ion si[e,and erosion and sediment control practices and pollution prevention measures; all points of discharge from the cons[ruc[ion si[e. and to correct deficiencies identified with the construction of the post- construction stormwater management practice(s); 4. The qualified inspec[or shall prepare an inspection report subsequent to each and every inspection.At a minimum,the inspection report shall include and/or k. Identification and status of all corrective actions thatwere required by address the following: previous inspection;and 27 28 (Parc iv.ca i) (Parc v.n z.e) I. Digital photographs,with date stamp,that clearly show the condition of all b. Planned shutdown with partial project completion-All soil disturbance practices that have been identified as needing corrective actions.The activities have ceased;and all areas disturbed as of the project shutdown qualified inspec[orshall attach paper color copies of the digital photographs date have achieved final s[abiliza[ion;and all temporary,structural erosion to the inspection report being maintained onsite within seven(7)calendar and sediment control measures have been removed;and all post- days of the date of the inspection.The qualified inspec[or shall also take construction stormwater management practices required for the completed digital photographs,with date stamp,that clearly show the condition of the portion of the project have been constructed in conformance with the practice(s)afterthe corrective action has been completed.The qualified SWPPP and are operational; inspec[orshall attach paper color copies of the digital photographs to the inspection report that documents the completion of the corrective action c. A new owneroropera[or has obtained coverage under this permit in work within seven(7)calendar days of that inspection. accordance with Part II.F.of this permit. 5. Within one business day of the completion of an inspection,the qualified d. The owneror opera[or obtains coverage under an alternative SPDES inspec[orshall notify the owneroropera[or and appropriate contractor or general permit or an individual SPDES permit. subcontractor identified in Part III.A.6.of this permit of any corrective actions that need to be taken.The contractor or subcontractor shall begin implementing 3. For cons[ruc[ion ac[ivi[ies meeting subdivision 2a.or 2b.of this Part,the owner the corrective actions within one business day of this notification and shall or opera[or shall have the qualified inspec[or pertorm a final site inspection complete the corrective actions in a reasonable time frame. priorto submitting the NOT.The qualified inspec[orshall,by signing the"Final S[abiliza[ion"and"Post-Construction Stormwater Management Practice 6. All inspection reports shall be signed by the qualified inspec[or.Pursuantto certification statements on the NOT,certify that all the requirements in Part Part II.D.2.of this permit,the inspection reports shall be maintained on site with V.A.2.a.or b.of this permit have been achieved. the SWPPP. 4. For cons[ruc[ion ac[ivi[ies that are subject to the requirements of a regula[ed, [radi[ional land use con[rol MS4 and meet subdivision 2a.or 2b.of this Part,the Part V.TERMINATION OF PERMIT COVERAGE owneroropera[orshall have the regula[ed,[radi[ionalland use con[rol MS4 sign the"MS4 Acceptance"statement on the NOT in accordance with the A. Termination of Permit Coverage requirements in Part VII.H.of this permit.The regula[ed,[radi[ionalland use con[rol MS4 official,by signing this statement,has determined that it is 1. An owneroropera[orthat is eligible to terminate coverage under this permit acceptable for the owneroropera[orto submitthe NOT in accordance with the must submit a completed NOT form to the address in Part II.B.1 of this permit. requirements of this Part.The regula[ed,[radi[ional land use con[rol MS4 can The NOT form shall be one which is associated with this permit,signed in make this determination by pertorming a final site inspection themselves or by accordance with Part VII.H of this permit. accepting the qualified inspec[or's final site inspection certification(s)required in Part V.A.3.of this permit. 2. An owneror opera[or may terminate coverage when one or more the following conditions have been met: 5. For cons[ruc[ion ac[ivi[ies that require post-construction stormwater management practices and meet subdivision 2a.of this Part,the owneror a. Total project completion-All cons[ruc[ion ac[iviry identified in the SWPPP opera[or must,prior to submitting the NOT,ensure one of the following: has been completed;and all areas of disturbance have achieved final s[abiliza[ion;and all temporary,structural erosion and sediment control a. the post-construction stormwater management practice(s)and any right-of- measures have been removed;and all post-construction stormwater way(s)needed to maintain such practice(s)have been deeded to the management practices have been constructed in conformance with the municipality in which the practice(s)is located, SWPPP and are operational; 29 30 (Parc v ns.e) (Parc w i.n) b. an executed maintenance agreement is in place with the municipality that Act(CWA)and the ECL and is grounds for an enforcement action against the owneror will maintain the post-construction stormwater management practice(s), opera[or and/or the contractor/subcontractor; permit revocation, suspension or modification;ordenial of a permit renewal application.Upon a finding of significant non- c. for post-construction stormwater management practices that are privately compliance with this permit or the applicable SWPPP,the Department may order an owned,the owneroropera[or has a mechanism in place that requires immediate stop to all cons[ruc[ion ac[ivity at the site until the non-compliance is operation and maintenance of the practice(s)in accordance with the remedied.The stop work order shall be in writing,shall describe the non-compliance in operation and maintenance plan,such as a deed covenant in the owneror detail,and shall be sentto the owneroropera[or. opera[or's deed of record, d. for post-construction stormwater management practices that are owned by If any human remains or archaeological remains are encountered during excavation, a public or private institution(e.g.school,university,hospital),government the owner or opera[or must immediately cease,or cause to cease,all cons[ruc[ion agency or authority,or public utility;the owneroropera[or has policy and ac[ivity in the area of the remains and notify the appropriate Regional Water Engineer procedures in place that ensures operation and maintenance of the (RWE). Cons[ruc[ion ac[ivity shall not resume until written permission to do so has been practices in accordance with the operation and maintenance plan. received from the RWE. Part VI.REPORTING AND RETENTION RECORDS B. Continuation of the Expired General Permit A. Record Retention This permit expires five(5)years from the effective date.If a new general permit is not issued priorto the expiration of this general permit,an owneroropera[orwith coverage The owneroropera[orshall retain a copy of the NOI,NOI under this permit may continue to operate and discharge in accordance with the terms Acknowledgment Letter,SWPPP,MS4 SWPPP Acceptance form and any inspection and conditions of this general permit, if it is eutended pursuant to the State reports thatwere prepared in conjunction with this permitfor a period of at leastfive(5) Administrative Procedure Act and 6 NYCRR Part 621,until a new general permit is issued. years from the date that the Department receives a complete NOT submitted in accordance with Part V.of this general permit. C. Enforcement B. Addresses Failure of the owneroropera[or,its contractors,subcontractors,agents and/or assigns to strictly adhere to any of the permit requirements contained herein shall constitute a With the exception of the NOI,NOT,and MS4 SWPPP Acceptance form(which must violation of this permit.There are substantial criminal,civil,and administrative penalties be submitted to the address referenced in Part II.B.1 of this permit), all written associated with violating the provisions of this permit. Fines of up to$37,500 per day correspondence requested by the Department,including individual permit applications, for each violation and imprisonment for up to fifteen(15)years may be assessed shall be sent to the address of the appropriate DOW Water(SPDES)Program contact depending upon the nature and degree of the offense. at the Regional Office listed in Appendix F. D. Need to Halt or Reduce Activity Not a Defense Part VII.STANDARD PERMIT CONDITIONS It shall not be a defense for an owneroropera[or in an enforcement action that it would A. Dutyto Comply have been necessary to halt or reduce the cons[ruc[ion ac[ivity in order to maintain compliance with the conditions of this permit. The owner or opera[or must comply with all conditions of this permit. All contractors and subcontractors associated with the project must comply with the terms of the SWPPP.Any non-compliance with this permit constitutes a violation of the Clean Water 31 32 (Parc vi i.e) (Parc wi H�a) E. Dutyto Mitigate (i) a president,secretary,treasurer,orvice-presidentofthe corporation in charge of a principal business function,or any other person who The owneroropera[orand its contractors and subcontractors shall take all reasonable performs similar policy or decision-making functions for the steps to minimize or prevent any discharge in violation of this permit which has a corporation;or reasonable likelihood of adversely affecting human health orthe environment. (ii) the manager of one or more manufacturing,production or operating F. Dutyto Provide Information facilities,provided the manager is authorized to make management decisions which govern the operation of the regulated facility including The owner or opera[or shall furnish to the Department,within a reasonable specified having the explicit or implicit duty of making major capital investment time period of a written request,all documentation necessary to demonstrate eligibility recommendations,and initiating and directing other comprehensive and any information to determine compliance with this permit or to determine whether measures to assure long term environmental compliance with cause exists for modifying or revoking this permit,or suspending or denying coverage environmental laws and regulations;the manager can ensure that the under this permit,in accordance with the terms and conditions of this permit.The NOI, necessary systems are established or actions taken to gather complete SWPPP and inspection reports required by this permit are public documents that the and accurate information for permit application requirements;and owneroropera[ormust make available for review and copying by any person within five where authority to sign documents has been assigned or delegated to (5)business days of the owner or opera[or receiving a written request by any such the manager in accordance with corporate procedures; person to review these documents. Copying of documents will be done at the requester's expense. b. For a partnership or sole proprietorship these forms shall be signed by a general partner orthe proprietor,respectively;or G.Other Information c. For a municipality,State,Federal,or other public agency these forms shall When the owner or opera[or becomes aware that they failed to submit any relevant be signed by either a principal executive officer or ranking elected official. facts,or submitted incorrect information in the NOI or in any of the documents required For purposes of this section,a principal executive officer of a Federal by this permit,or have made substantive revisions to the SWPPP(e.g.the scope of the agency includes: project changes significantly,the type of post-construction stormwater management practice(s) changes, there is a reduction in the sizing of the post-construction (i) the chief executive officer of the agency,or stormwater management practice,or there is an increase in the disturbance area or impervious area), which were not reflected in the original NOI submitted to the (ii) a senior executive officer having responsibility for the overall Department,they shall promptly submit such facts or information to the Department operations of a principal geographic unit of the agency(e.g.,Regional using the contact information in Part II.A.of this permit.Failure of the owneroropera[or Administrators of EPA). to correct or supplement any relevant facts within five(5)business days of becoming aware of the deficiency shall constitute a violation of this permit. 2. The SWPPP and other information requested by the Department shall be signed by a person described in Part VII.H.1.of this permit or by a duly H. Signatory Requirements authorized representative of that person.A person is a duly authorized representative only if: 1. All NOIs and NOTs shall be signed as follows: a. The authorization is made in writing by a person described in Part VII.H.1. a. For a corporation these forms shall be signed by a responsible corporate of this permit; officer.For the purpose of this section,a responsible corporate officer means: b. The authorization specifies either an individual or a position having responsibility for the overall operation of the regulated facility or activity, such as the position of plant manager,operator of a well or a well field, 33 34 (Part VII H 2.b) (Part VII K 1) superintendent,position of equivalen[responsibility,or an individual or include a brief statement of the reasons forthis decision,an application form, position having overall responsibility for environmental matters forthe a statement setting a time frame forthe owner or operator to file the company.(A duly authorized representative may thus be either a named application for an individual SPDES permit,and a deadline,not soonerthan individual or any individual occupying a named position)and, 180 days from owner or operator receipt of the notification letter,whereby the authorization to discharge under this general permit shall be terminated. c. The written authorization shall include the name,title and signature of the Applications must be submitted to the appropriate Permit Administrator at the authorized representative and be attached to the SWPPP. Regional Office.The Department may grant additional time upon demonstration,to the satisfaction of the Department,that additional time to 3. All inspection reports shall be signed by the qualified inspec[orthat pertorms apply for an alternative authorization is necessary or where the Department the inspection. has not provided a permit determination in accordance with Part 621 of this Title. 4. The MS4 SWPPP Acceptance form shall be signed by the principal executive officer or ranking elected official from the regula[ed,hadi[ional land use con[rol 2.When an individual SPDES permit is issued to a discharger authorized to MS4,or by a duly authorized representative of that person. discharge under a general SPDES permit for the same discharge(s),the general permit authorization for outfalls authorized under the individual It shall constitute a permitviolation if an incorrect and/or improper signatory SPDES permit is automatically terminated on the effective date of the authorizes any required forms,SWPPP and/or inspection reports. individual permit unless termination is earlier in accordance with 6 NYCRR Part 750. I. Property Rights L. Proper Operation and Maintenance The issuance of this permit does not convey any property rights of any sort,nor any exclusive privileges,nor does itauthorize any injuryto private property norany invasion The owneroropera[orshall at all times properly operate and maintain all facilities and of personal rights,nor any infringement of Federal,State or local laws or regulations. systems of treatment and control(and related appurtenances)which are installed or Owners or opera[ors must obtain any applicable conveyances,easements, licenses used bythe owneroropera[orto achieve compliance with the conditions of this permit and/or access to real property prior to commencing cons[ruc[ion ac[ivity. and with the requirements of the SWPPP. J. Severability M.Inspection and Entry The provisions of this permit are severable,and if any provision of this permit,or the The owner or opera[or shall allow an authorized representative of the Department, application of any provision of this permit to any circumstance, is held invalid,the EPA,applicable county health department,or,in the case of a cons[ruc[ion si[e which application of such provision to other circumstances,and the remainder of this permit discharges through an MS4,an authorized representative of the MS4 receiving the shall not be affected thereby. discharge, upon the presentation of credentials and other documents as may be required by law,to: K. Requirement to Obtain Coverage Under an Alternative Permit 1.Enter upon the owner's or operator's premises where a regulated facility or activity is located or conducted or where records must be kept under the 1. The Department may require any owner or operator authorized by this permitto conditions of this permit; apply for and/or obtain either an individual SPDES permit or another SPDES general permit.When the Department requires any discharger authorized by a 2.Have access to and copy at reasonable times,any records that must be kept general permitto apply for an individual SPDES permit,it shall notify the under the conditions of this permit;and discharger in writing that a permit application is required.This notice shall 35 36 (Part VI I.M 3) (Part VI I.R) 3.Inspect at reasonable times any facilities or equipment(including monitoring R. Other Permits and control equipment),practices or operations regulated or required by this permit. Nothing in this permit relieves the owneroropera[orfrom a requirement to obtain any other permits required by law. 4.Sample or monitor at reasonable times,for purposes of assuring permit compliance or as otherwise authorized by the Act or ECL,any substances or parameters at any location. N. PermitActions This permit may,at any time,be modified,suspended,revoked,or renewed by the Department in accordance with 6 NYCRR Part 621.The filing of a request by the owneroropera[orfor a permit modification,revocation and reissuance,termination,a notification of planned changes or anticipated noncompliance does not limit,diminish and/or stay compliance with any terms of this permit. O. Definitions Definitions of key terms are included in Appendix A of this permit. P. Re-Opener Clause 1.If there is evidence indicating potential or realized impacts on water quality due to any stormwater discharge associated with construction activity covered by this permit,the owner or operator of such discharge may be required to obtain an individual permit or alternative general permit in accordance with Part VII.K.of this permit or the permit may be modified to include different limitations and/or requirements. 2.Any Department initiated permit modification,suspension or revocation will be conducted in accordance with 6 NYCRR Part 621,6 NYCRR 750-1.18,and 6 NYCRR 750-120. Q. Penalties for Falsification of Forms and Reports In accordance with 6NYCRR Part 750-2.4 and 750-2.5,any person who knowingly makes any false material statement,representation,or certification in any application, record,report or other document filed or required to be maintained under this permit, including reports of compliance or noncompliance shall,upon conviction,be punished in accordance with ECL§71-1933 and or Articles 175 and 210 of the New York State PenalLaw. 37 38 nvva�d�;:n APPENDIXA—Acronyms and Definitions Definitions All definitions in this section are solelv for the purposes of this permit. Acronyms Agricultural Building—a structure designed and constructed to house farm APO—Agency Preservation Officer implements,hay,grain,poultry,livestock or other horticultural products;excluding any BMP—Best Management Practice structure designed,constructed or used,in whole or in part,for human habitation,as a CPESC—Certified Professional in Erosion and Sediment Control place of employment where agricultural products are processed,treated or packaged, Cpv—Channel Protection Volume or as a place used by the public. CWA—Clean Water Act(or the Federal Water Pollution Control Act,33 U.S.C.§1251 et Agricultural Property—means the land for construction of a barn,agricul[ural building, seq) silo,stockyard,pen or other structural practices identified in Table II in the"Agricultural DOW—Division of Water Management Practices Catalog for Nonpoint Source Pollution in New York State" EAF—Environmental Assessment Form prepared by the Department in cooperation with agencies of New York Nonpoint Source ECL-Environmental Conservation Law Coordinating Committee(dated June 2007). EPA—U.S.Environmental Protection Agency HSG—Hydrologic Soil Group Alter Hydrology from Pre to Post-Development Conditions-means the post- MS4—Municipal Separate Storm Sewer System development peak flow rate(s)has increased by more than 5%of the pre-developed NOI—Notice of Intent condition for the design storm of interest(e.g.10 yr and 100 yr). NOT—Notice of Termination NPDES—National Pollutant Discharge Elimination System Combined Sewer-means a sewer that is designed to collect and convey both OPRHP—Office of Parks,Recreation and Historic Places "sewage"and"stormwater". Qf—Extreme Flood Qp—Overbank Flood Commence(Commencement of)Construction Activities-means the initial RRv—Runoff Reduction Volume disturbance of soils associated with clearing,grading or excavation activities;or other RWE—Regional Water Engineer construction related activities that disturb or expose soils such as demolition,stockpiling SEQR—State Environmental Quality Review of fill material,and the initial installation of erosion and sediment control practices SEQRA-State Environmental Quality Review Act required in the SWPPP.See definition for"Cons[ruc[ion Ac[iviry(ies)"also. SHPA—State Historic Preservation Act SPDES—State Pollutant Discharge Elimination System Construction Activit ies means an clearin radin excavation,fillin demolition SWPPP—Stormwater Pollution Prevention Plan Y� � Y g'g g' g' TMDL—Total Maximum Daily Load or stockpiling activities that result in soil disturbance.Clearing activities can include,but UPA—Uniform Procedures Act are not limited to,logging equipment operation,the cutting and skidding of trees,stump USDA—United States Department of Agriculture removal and/or brush root removal.Construction activity does not include routine WQv—Water Quality Volume maintenance that is pertormed to maintain the original line and grade,hydraulic capacity,or original purpose of a facility. Construction Site—means the land area where cons[ruc[ion ac[iviry(ies)will occur. See definition for"Commence(Commencemen[o�Cons[ruc[ion Ac[ivi[ies"and"Larger Common Plan of Developmen[or Sale"also. Dewatering—means the act of draining rainwater and/or groundwaterfrom building foundations,vaults or excavations/trenches. Direct Discharge(to a specific surtace waterbody)-means that runoff flows from a cons[ruc[ion si[e by overland flow and the first point of discharge is the specific surtace waterbody,or runoff flows from a cons[ruc[ion si[e to a separate storm sewer system 39 40 Appendix A Appendix A and the first point of discharge from the separate storm sewer system is the specific Larger Common Plan of Development or Sale-means a contiguous area where surtace waterbody. multiple separate and distinct cons[ruc[ion ac[ivi[ies are occurring,or will occur,under one plan.The term"plan"in"larger common plan of development or sale"is broadly Discharge(s)-means any addition of any pollutant to waters of the State through an defined as any announcement or piece of documentation(including a sign,public notice outlet or poin[source. or hearing,marketing plan,advertisement,drawing,permit application,State Environmental Quality Review Act(SEQRA)environmental assessmentform or other Embankment—means an earthen or rock slope that supports a road/highway. documents,zoning request,computer design,etc.)or physical demarcation(including boundary signs,lot stakes,surveyor markings,etc.)indicating that cons[ruc[ion Endangered or Threatened Species—see 6 NYCRR Part 182 of the DepartmenYs ac[ivi[ies may occur on a specific plot. rules and regulations for definition of terms and requirements. For discrete construction projects that are located within a larger common plan of Environmental Conservation Law(ECL)-means chapter 43-B of the Consolidated development or sale that are at least 1/4 mile apart,each project can be treated as a Laws of the State of New York,entitled the Environmental Conservation Law. separate plan of development or sale provided any interconnecting road,pipeline or utility project that is part of the same"common plan"is not concurrently being disturbed. Equivalent(Equivalence)—means that the practice or measure meets all the performance,longevity,maintenance,and safety objectives of the technical standard Minimize—means reduce and/or eliminate to the extent achievable using control and will provide an equal or greater degree of water quality protection. measures(including best management practices)that are technologically available and economically practicable and achievable in light of best industry practices. Final Stabilization-means that all soil disturbance activities have ceased and a uniform,perennial vegetative cover with a density of eighty(80)percent over the entire Municipal Separate Storm Sewer(MS4)-a conveyance or system of conveyances pervious surtace has been established;or other equivalent stabilization measures,such (including roads with drainage systems,municipal streets,catch basins,curbs,gutters, as permanent landscape mulches,rock rip-rap orwashed/crushed stone have been ditches,man-made channels,or storm drains): applied on all disturbed areas that are not covered by permanent structures,concrete or pavement. (i) Owned or operated by a State,city,town,borough,county,parish,district, association,or other public body(created by or pursuant to State law)having General SPDES permit-means a SPDES permit issued pursuant to 6 NYCRR Part jurisdiction over disposal of sewage,industrial wastes,stormwater,or other 750-121 and Section 70-0117 of the ECL authorizing a category of discharges. wastes,including special districts under State law such as a sewer district, flood control district or drainage district,or similar entity,or an Indian tribe or Groundwater(s)-means waters in the saturated zone.The saturated zone is a an authorized Indian tribal organization,or a designated and approved subsurtace zone in which all the interstices are filled with water under pressure greater management agency under section 208 of the CWA that discharges to than that of the atmosphere.Although the zone may contain gas-filled interstices or surtace waters of the State; interstices filled with fluids other than water,it is still considered saturated. (ii) Designed or used for collecting or conveying stormwater; (iii) Which is not a combined sewer;and Historic Property—means any building,structure,site,object or district that is listed on (iv)Which is not part of a Publicly Owned Treatment Works(POTW)as defined the State or National Registers of Historic Places or is determined to be eligible for at 40 CFR 1222. listing on the State or National Registers of Historic Places. National Pollutant Discharge Elimination System(NPDES)-means the national Impervious Area(Cover)-means all impermeable surtaces that cannot effectively system for the issuance of wastewater and stormwater permits under the Federal Water infiltrate rainfall.This includes paved,concrete and gravel surtaces(i.e.parking lots, Pollution Control Act(Clean Water Act). driveways,roads,runways and sidewalks);building rooftops and miscellaneous impermeable structures such as patios,pools,and sheds. Natural Buffer—means an undisturbed area with natural cover running along a surtace water(e.g.wetland,stream,river,lake,etc.). Infeasible—means nottechnologically possible,or not economically practicable and achievable in light of best industry practices. New Development—means any land disturbance that does not meet the definition of Redevelopment Activity included in this appendix. 41 42 nvva�d�;:n nvva�d�;:n New York State Erosion and Sediment Control Certificate Program—a certificate Qualified Inspector-means a person that is knowledgeable in the principles and program that establishes and maintains a process to identify and recognize individuals practices of erosion and sediment control,such as a licensed Professional Engineer, who are capable of developing,designing,inspecting and maintaining erosion and Certified Professional in Erosion and Sediment Control(CPESC),Registered sediment control plans on projects that disturb soils in New York State.The certificate Landscape Architect,New York State Erosion and Sediment Control Certificate program is administered by the New York State Conservation District Employees Program holder or other Department endorsed individual(s). Association. It can also mean someone working under the direct supervision of,and at the same NOI Acknowledgment Letter-means the letter thatthe Department sends to an company as,the licensed Professional Engineer or Registered Landscape Architect, owner or operator to acknowledge the DepartmenYs receipt and acceptance of a provided that person has training in the principles and practices of erosion and sediment complete Notice of Intent.This letter documents the owner's or operator's authorization control.Training in the principles and practices of erosion and sediment control means to discharge in accordance with the general permit for stormwater discharges from that the individual working under the direct supervision of the licensed Professional cons[ruc[ion ac[ivity. Engineer or Registered Landscape Architect has received four(4)hours of Department endorsed training in proper erosion and sediment control principles from a Soil and Nonpoint Source-means any source of water pollution or pollutants which is not a Water Conservation District,or other Department endorsed entity.After receiving the discrete conveyance or poin[source permitted pursuant to Title 7 or 8 of Article 17 of initial training,the individual working under the direct supervision of the licensed the Environmental Conservation Law(see ECL Section 17-1403). Professional Engineer or Registered Landscape Architect shall receive four(4)hours of training every three(3)years. Overbank—means flow events that exceed the capacity of the stream channel and spill out into the adjacent floodplain. It can also mean a person that meets the Qualified Professional qualifications in addition to the Qualified Inspec[or qualifications. Owner or Operator-means the person,persons or legal entity which owns or leases the property on which the cons[ruc[ion ac[iviry is occurring; an entity that has Note:Inspections of any post-construction stormwater management practices that operational control over the construction plans and specifications,including the ability to include structural components,such as a dam for an impoundment,shall be pertormed make modifications to the plans and specifications;and/or an entity that has day-to-day by a licensed Professional Engineer. operational control of those activities at a project that are necessary to ensure compliance with the permit conditions. Qualified Professional-means a person that is knowledgeable in the principles and practices of stormwater management and treatment,such as a licensed Professional Performance Criteria—means the design criteria listed under the"Required Elements" Engineer,Registered Landscape Architect or other Department endorsed individual(s). sections in Chapters 5,6 and 10 of the technical standard,New York State Stormwater Individuals preparing SWPPPs that require the post-construction stormwater Management Design Manual,dated January 2015.It does not include the Sizing management practice component must have an understanding of the principles of Criteria(i.e.WQv,RRv,Cpv,Qp and Qf)in Part I.C.2.of the permit. hydrology,water quality management practice design,water quantity control design, and,in many cases,the principles of hydraulics.All components of the SWPPP that Point Source-means any discernible,confined and discrete conveyance,including but involve the practice of engineering,as defined by the NYS Education Law(see Article not limited to any pipe,ditch,channel,tunnel,conduit,well,discrete fissure,container, 145),shall be prepared by,or under the direct supervision of,a professional engineer rolling stock,concentrated animal feeding operation,vessel or other floating craft,or licensed to practice in the State of New York. landfill leachate collection system from which pollu[an[s are or may be discharged. Redevelopment Activity(ies)—means the disturbance and reconstruction of existing Pollutant-means dredged spoil,filter backwash,solid waste,incinerator residue, impervious area,including impervious areas thatwere removed from a project site within sewage,garbage,sewage sludge,munitions,chemical wastes,biological materials, five(5)years of preliminary project plan submission tothe local government(i.e.site plan, radioactive materials,heat,wrecked or discarded equipment,rock,sand and industrial, subdivision,etc.). municipal,agricultural waste and ballast discharged into water;which may cause or might reasonably be expected to cause pollution of the waters of the state in contravention of the standards or guidance values adopted as provided in 6 NYCRR Regulated,Traditional Land Use Control MS4-means a city,town or village with Parts 700 et seq. land use control authority that is authorized to discharge under New York State DEC's 43 44 Appendix A Appendix A SPDES General Permit For Stormwater Discharges from Municipal Separate Stormwater Sewer Systems(MS4s)or the City of New York's Individual SPDES Permit Steep Slope—means land area designated on the current United States Department of for their Municipal Separate Storm Sewer Systems(NY-0287890). Agriculture("USDA")Soil Survey as Soil Slope Phase"D",(provided the map unit name is inclusive of slopes greater than 25%),or Soil Slope Phase E or F,(regardless of the Routine Maintenance Activity-means conshuc[ion ac[iviry that is pertormed to map unit name),or a combination of the three designations. maintain the original line and grade,hydraulic capacity,or original purpose of a facility, including,but not limited to: Streambank—as used in this permit,means the terrain alongside the bed of a creek or stream.The bank consists of the sides of the channel,between which the flow is confined. • Re-grading of gravel roads or parking lots, • Cleaning and shaping of existing roadside ditches and culverts that maintains Stormwater Pollution Prevention Plan(SWPPP)—means a project specific report, the approximate original line and grade,and hydraulic capacity of the ditch, including construction drawings, that among other things: describes the construction • Cleaning and shaping of existing roadside ditches that does not maintain the activity(ies),identifies the potential sources of pollution at the cons[ruc[ion si[e;describes approximate original grade,hydraulic capacity and purpose of the ditch if the and shows the stormwater controls that will be used to control the pollutants(i.e.erosion changes to the line and grade,hydraulic capacity or purpose of the ditch are and sediment controls; for many projects, includes post-construction stormwater installed to improve water quality and quantity controls(e.g.installing grass management controls);and identifies procedures the owneroropera[orwill implementto lined ditch), comply with the terms and conditions of the permit. See Part III of the permit for a • Placement of aggregate shoulder backing that stabilizes the transition between complete description of the information that must be included in the SWPPP. the road shoulder and the ditch or embankmen[, • Full depth milling and filling of existing asphalt pavements,replacement of Surtace Waters of the State-shall be construed to include lakes,bays,sounds, concrete pavement slabs,and similar work that does not expose soil or disturb ponds,impounding reservoirs,springs,rivers,streams,creeks,estuaries,marshes, the bottom six(6)inches of subbase material, inlets,canals,the Atlantic ocean within the territorial seas of the state of New York and • Long-term use of equipment storage areas at or near highway maintenance all other bodies of surface water,natural or artificial,inland or coastal,fresh or salt, facilities, public or private(except those private waters that do not combine or effect a junction • Removal of sediment from the edge of the highway to restore a previously with natural surtace waters),which are wholly or partially within or bordering the state existing sheet-flow drainage connection from the highway surtace to the or within its jurisdiction.Waters of the state are further defined in 6 NYCRR Parts 800 to highway ditch or embankmen[, 941. • Existing use of Canal Corp owned upland disposal sites for the canal,and • Replacement of curbs,gutters,sidewalks and guide rail posts. Temporarily Ceased—means that an existing disturbed area will not be disturbed again within 14 calendar days of the previous soil disturbance. Site limitations—means site conditions that prevent the use of an infiltration technique and or infiltration of the total WQv.Typical site limitations include:seasonal high Temporary Stabilization-means that exposed soil has been covered with material(s) groundwater,shallow depth to bedrock,and soils with an infiltration rate less than 0.5 as set forth in the technical standard,New York Standards and Specifications for inches/hour.The existence of site limitations shall be confirmed and documented using Erosion and Sediment Control,to prevent the exposed soil from eroding.The materials actual field testing(i.e.test pits,soil borings,and infiltration test)or using information can include,but are not limited to,mulch,seed and mulch,and erosion control mats from the most current United States Department of Agriculture(USDA)Soil Survey for (e.g.jute twisted yarn,excelsior wood fiber mats). the County where the project is located. Total Maximum Daily Loads(TMDLs)-A TMDL is the sum of the allowable loads of a Sizing Criteria—means the criteria included in Part I.C2 of the permit that are used to single pollutant from all contributing point and nonpoin[sources.It is a calculation of the size post-construction stormwater management control practices.The criteria include; maximum amount of a pollutant that a waterbody can receive on a daily basis and still Water Quality Volume(WQv),Runoff Reduction Volume(RRv),Channel Protection meet wa[erqualiry s[andards,and an allocation of that amountto the pollutanYs Volume(Cpv),Overbank Flood(Qp),and Extreme Flood(Qf). sources.A TMDL stipulates wasteload allocations(WLAs)for poin[source discharges, load allocations(LAs)for nonpoin[sources,and a margin of safety(MOS). State Pollutant Discharge Elimination System(SPDES)-means the system established pursuant to Article 17 of the ECL and 6 NYCRR Part 750 for issuance of Trained Contractor-means an employee from the contracting(construction)company, permits authorizing discharges to the waters of the state. identified in Part III.A.6.,that has received four(4)hours of Department endorsed 45 46 nvva�d�;:n training in proper erosion and sediment control principles from a Soil and Water AppENDIX B—Required SWPPP Components by Project Type Conservation District,or other Department endorsed entity.After receiving the initial training,the hained con[rac[or shall receive four(4)hours of training every three(3) years. Table 1 Construction Activities that Require the Preparation of a SWPPP That Only It can also mean an employee from the contracting(construction)company,identified in Includes Erosion and Sediment Controls Part I I I.A.6.,that meets the qualified inspec[or qualifications(e.g.licensed Professional Engineer,Certified Professional in Erosion and Sediment Control(CPESC),Registered The following construction activities that involve soil disturbances of one(1)or more acres of Landscape Architect,New York State Erosion and Sediment Control Certificate land,but less than five(5)acres: Program holder,or someone working underthe direct supervision of,and at the same COmpany as,the liCensed PfOfessi0nal Engineef Of Registefed LandsCape AfChiteCt, •Single family home not located in one of the watersheds listed in Appendix C or not directly pfOVided they haVe reCeiVed fOUf(4)hOUfs Of Department endOfsed tfaining in pfOpef discharging to one ofthe 303(d)segments listed in Appendix E •Single family residential subdivisions with 25°k or less impervious cover at total site build-out and efOsiOn and Sediment COntf01 pfinCiples ffOm a SOiI and Watef COnsefVatiOn DistfiCt,Of not located in one ofthe watersheds listed in Appendix C and not directly discharging to one of the Othef DepaRment endOfsed entity). 303(d)segments listed in Appendix E •Constmction of a barn or other agricuttural building,silq stock yard or pen. The[rained con[rac[or is responsible for the day to day implementation of the SWPPP. The following construction activities that involve soil disturbances between five thousand(5000) Uniform Procedures Act(UPA)Permit-means a permit required under 6 NYCRR square feet and one(1)acre of land: Part 621 of the Environmental Conservation Law(ECL),Article 70. All construction activities located in the watersheds identifed in Appendix D that involve soil Watef QUality Standafd-means SUCh measUfes Of pUfity Of qUality fOf any Watefs in disturbances between fve thousand(5,000)square feet and one(1)acre of land. relation to their reasonable and necessary use as promulgated in 6 NYCRR Part 700 et Seq. The following construction activities that involve soil disturbances of one(1�or more acres of land: • Installation of underground, linear utilities; such as gas lines, fber-optic cable, cable N, elecMc,telephone,sewer mains,antl water mains •Environmental enhancement projects,such as wetland mitigation projects,stormwater retrofts and stream restoration projects • Pond construction •Linear bike paths running through areas with vegetative cover,including bike paths surfaced with an impervious cover •Cross-countryskitrailsandwalking/hikingtrails •Sidewalk,bike path orwalking path projects,surfaced with an impervious cover,that are not part of residential,commercial or institutional development; •Sidewalk,bike path or walking path projects,surfaced with an impervious cover,that include incidental shoulder or wrb work along an existing highway to support constmction ofthe sidewalk, bike path orwalking path. •Slope stabilization projects •Slope flattening that changes the grade ofthe site,but does not significantly change the runoff characteristics 47 48 Appendix B Appendix B T2b10 1(COf1tIf1U0dJ CONSTRUCTION ACTIVITIES 7HAT REQUIRE THE PREPARATION OF A T2b10 2 SWPPP CONSTRUCTION ACTNITIES THAT REQUIRE 7HE PREPARATON OF A SWPPP THAT INCLUDES THAT ONLY INCLUDES EROSION AND SEDIMENT CON7F20LS POSTCONSTRUCTON STORNNJAlER MANAGEMENT PRACTICES The following construction activities that involve soil disturbances of one(1)or more acres of lantl: The following construction activities that involve soil disturbances of one(1)or more acres of land: •Spoil areas that will be covered with vegetation • Vegetated open space projects(i.e.recreational parks,lawns,meadows,felds,downhill ski trails) • Single family home located in one ofthe watersheds listed in Appendix C or directlydischarging to excluding projects that atter hydrologyfrom pre to post development conditions, one ofthe 303(d)segments listed in Appendix E •Athletic felds(natural grass)that do not include the construction or reconstmction of impeniious • Single family home that disturbs fve(5)or more acres of lantl area and do not alter hydrologyfrom pre to post development conditions • Single family residential subdivisions located in one ofthe watersheds listed in Appendix C or • Demolition project where vegetation will be established,and no redevelopment is planned directly discharging to one ofthe 303(d)segments listed in Appendix E •Werhead elecMc transmission line project that does not include the constmction of permanent • Single family residential subdivisions that involve soil disNrbances of between one(1)and fve(5) access roads or parking areas surtaced with impervious cover acres of land with greater than 25°k impervious cover at total site build-out •Structural practices as identified in Table II in the"AgnculNral Management Practices Catalog for • Single family residential subdivisions that involve soil disNrbances offve(5)or more acres of land, Nonpoint Source Pollution in NewYork State",excluding projects that involve soil disturbances of and single family residential subdivisions that involve soil disturbances of less than five(5)acres greater than five acres and constmction activities that include the constmction or reconstmction of that are part of a larger common plan of development or sale that will ultimately disturb five or more impervious area acres of land •Temporary access roads,median crossovers,detour roads,lanes,or other temporary impervious • Multi-family residential developments;includes duplexes,townhomes,condominiums,senior areas that will be restored to pre-constmction conditions once the constmction activity is complete housing complexes,apartment complexes,and mobile home parks • Airports • Amusement parks • Breweries,cidenes,and winenes,including establishments constmcted on agncultural land • Campgrounds • Cemeteries that include the constmction or reconstmction of impervious area(>5°k of disturbed area)or alter the hydrology from pre to post development conditions • Commercial developments • Churches and other places of worship • Constmction of a barn or other agricuttural building(e.g.silo)and stmcNral practices as identifed in Table II in the"AgriculNral Management Practices Catalog for Nonpoint Source Pollution in New York State"that include the constmction or reconstruction of impervious area,exclutling projects that involve soil disturbances of less than fve acres. • Golfcourses • Institutional development;includes hospitals,prisons,schools and colleges • Industrial facilities;includes industrial parks • Landflls • Municipal facilities;includes highway garages,transfer stations,offce buildings,PONV's,water treatment plants,antl water storage tanks • Office complexes • Playgrounds that include the construction or reconstruction of impervious area • Sports complexes • Racetracks;includes racetracks with earthen(dirt)surtace • Road constmction or reconstruction,including roads constmcted as part of the constmction activities listed in Table 1 49 50 nvva�d�;:e Table 2(Continued) APPENDIX C—Watersheds Requiring Enhanced Phosphorus Removal CONSTRUCTION ACTNITES THAT REQUIRE THE PREPARATON OF A SWPPP THAT INCLUDES POST-CONS7F2UCTON STORNNJATER MANAGENENT PRACTICES Watersheds where owners or operators of construction activities identified in Table 2 of Appendix B must prepare a SWPPP that includes post-construction The following construction activities that involve soil disturbances of one(1)or more acres of stormwater management practices designed in conformance with the Enhanced lantl: Phosphorus Removal Standards included in the technical standard,New York • Parking lot constmction or reconstmction,including parking lots constructed as part ofthe State StofmWatef Management Design ManUal("Design ManUal°). construction activities listed in Table 1 • Athletic felds(natural grass)that include the constmction or reconstruction of impervious area(>5°k ofdisNrbed area)oralterthe hydrologyfrom pre to postdevelopmentcontlitions •Enti�e New Yo�k City Wate�shed located east of the Hudson Rive�-Figu�e 1 • Athletic felds with artificial turt •OnOndaga Lake Watefshed-FigUfe 2 • Permanent access roads,parking areas,substations,compressor stations and well drilling pads, •GfeenWOod Lake Watefshed-FigUfe 3 surfaced with impervious cover.and constmcted as part of an over-head elecMc transmission line •OsCaWana Lake Watefshed—FigUfe 4 project,wind-power project,cell tower project,oil or gas well drilling project,sewer orwater main •Kindefh0ok Lake Watefshed—Fi Ufe 5 project or other linear utility project • Sidewalk,bike path or walking path projects,surfaced with an impervious cover,that are part of a resitlential,commercial or instiNtional tlevelopment • Sidewalk,bike path orwalking path projects,surfaced with an impervious cover,that are part of a highway construction or reconstruction project • All other construction activities that include the constmction or reconstmction of impeniious area or atter the hydrology from pre to post development conditions,and are not listed in Table 1 51 52 Appendix C Appendix C Fiqure 1-New York Citv Watershed East of the Hudson Fiqure 2-Onondaqa Lake Watershed �• ' L �,.� �'EEK.":1a,pd � �..--�,� C. CLRY I 1J �� ...� L"ICERU � �� +7� � Ek.�. �t,R.�� , ... �� 17RTH F�Y US�.... ! -.� S'•A�^JLI41+: 1€7EFJ �.� h /� l V p Fd 13l ,.��-- .--L._ � �"u _ _ �, LIVEF�Pc7r`L jI ' '-,��-� �� SP.LIrJA I� �N�1U5 i rt�TF+25C�h � ' .. ... .. � C'-�4 ltE�JT ' �. �1_uq�- E�cSa��rH�'��}SEL.:� � �-'�� }y �vnoArG`us ��DOE'9 ..,t�',. � Y. S�iUTHZRST �— .......SYRRCU^.cE=.- .`-., �' ELBRtpGEi 1 '� � � I ��- � �'-i�i��.a�•rr_�E� ;, - �' r.� DEWiTT carr.ae� e�'N��R _ ��- �� -. nua��us� �_�_= `'�--�--- I'�1 H 1�H Sk�_tY1 SKA�J�AYEL 5 ��,��A ''.I j i'� • � 3�'1.�=R5 �LY-� .—�.� I ��=:=T_h;! ' L=WI56nR_ . 4 � � Y + �_ '.RkTCxt^JY� . f�. . ; � � LAFAYETTE � � GGF7RC� , . � a �i ;.lC`itiC:r; . 7�1C'�1.:!J ;i ! . , � � I _ ..',d.a'YLE .. �` . , �•.. UTISCA �_;._...�.—...� J � ��p'..�T.1.:f.3T. ''�tSPAGFORP � I._ . _ �u��Y� I � i ��;�r.t' , �'' �� . —— -` I ___ I --_ -F—--�— Phtls�hnrus Wale��s�e� � � � ]�;��h� � �PREBL� I � �� EOH Wafershed , I i �� . 53 54 nvva�d�;:c nvva�d�;:c Fiqure 3-Greenwood Lake Watershed Fiqure 4-Oscawana Lake Watershed PNfLIPST�W1�1 WRRWICK�.--�� I(ENT f''- 4 PUThfAM VALLEY � � � ; .��Nw000 �� ,_ —oscnwnaaa,u�xe Ph.�::��ii�ii�;.W�Av+uhcd � � A��,. �d n,r� . CARPu7 E L I�Phospharus 1Matershea 55 56 Appendix C Fiqure 5-Kinderhook Lake Watershed APPENDIX D—Watersheds with Lower Disturbance Threshold Watersheds where owners or operators of construction activities that involve soil disturbances between five thousand(5000)square feet and one(1)acre of land must obtain coverage under this permit. SANQ LAKE ER51 GRC��+[su5�� Entire New York City Watershed that is located east of the Hudson River-See Figure � n. r`�l 1 in Appendix C ��V � � � wnss,au �HqOAGK � � 1 NEW LEBAN ICINOERHODK � �,� GHATHRM , C.W A.4N Vp1R1ll" TVMi.Vil4epc.ar Giry 6wntl�y lor Naw 1bR.StaLe yys CJ Knticr�ook Ln%c WnEcaM1ctl � �~T�~� 57 58 303(d)Segments Impaired by Construction Related Pollutant(s) APPENDIX E—303(d)Segments Impaired by Construction Related Pollutant(s) ouechess Fall Kill and eri6s Nuerienrs Dutchess Hillside Lake Nutrientr List of 303(d)segments impaired by pollutants related to construction ectiviry(e.g.silt,sediment Dutchess Wappingers Lake Nutrienrs or nutrients).The list was developed using"The Final New York State 2016 Section 303(d)List Dutchess Wa Lake 5ilt/5ediment of Impaired Waters Requiring a TMDL/Other Stretegy'dated November 2016.Owners or ppingers operators of single family home and single family residential subdivisions with 25%or less total Erie Beeman Creek and tri6s Nutrients impervious cover at total site build-out that involve soil disturbances of one or more acres of Erie Ellimtt Creek,Lower,and tri6s 5ilt/5ediment land,but less than 5 acres,and directly discharge to one of the listed segments below shall Erie Ellimtt Creek,Lower,and tri6s Nutrients prepare a SWPPP that includes post-construction stormwater management prectices designed Erie Green Lake Nutrients in conformance with the New York State Stormwater Management Design Manual('Design Erie LitHe 5isterCreek,Lower,and tri6s Nutrienrs Manual"),dated January 2015. Erie MurderCreek,Lower,and tri6s Nutrients Erie Rush Creek and tri6s Nutrients Erie Scajaquada Creek,Lower,and tri6s Nutrients Erie ScajaquadaCreek,Middle,andtri6s Nutrients COUNTY WATERBODY POLLUTANT Erie ScajaquadaCreek,Upper,andtri6s Nutrientr Al6any Ann Lee(Shakers)Pond,Stump Pond Nutrientr Erie South Branch Smoke Cr,Lower,and tri6s Silt/Sediment Al6any BasicCreekReservoir Nutrientr Erie SouthBranch5mokeCr,Lower,andtri6s Nutrientr Allegany Amity Lake,Saunders Pond Nutrientr Bronx Longlsland5ound,Bronx Nutrientr Essex LakeChamplain,MainLake,South Nutrientr Bronx Van CortlandtLake Nutrientr Essex Lake Champlain,South Lake Nutrients Broome Fly Pond,Deer Lake,Sky Lake Nutrientr Essex Wills6oro Bay Nutrientr Broome MinorTri6stoLowerSusquehanna(north) Nutrientr Genesee BigelowCreekandtri6s Nutrientr Broome WhitneyPointLake/Reserv Nutrientr Genesee BlackCreek,Middle,andm ortri6s Nutrients Cattaraugus AlleghenyRiver/Reservoir o Nutrientr Genesee BlackCreek,Upper,andm ortri6s Nutrients Genesee BowenBrookandtri6s Nutrientr Cattaraugus Beaver(Alma)Lake Nutrientr Genesee LeRoy Reservoir Nutrientr Cattaraugus Case Lake Nutrientr Cattaraugus Linlym/CIu6 Pond Nutrientr Genesee Oak Orchard Cr,Upper,and tri6s Nutrientr Ca Duck Lake Nutrientr Genesee Tonawanda Creek,Middle,Main Stem Nutrientr yuga Greene Schoharie Reservoir Silt/Sediment Cayuga LitHe Sodus Bay Nutrientr Greene Sleepy Hollow Lake Silt/Sediment Chautauqua BearLake Nutrientr Herkimer SteeleCreektri6s Silt/Sediment Chautauqua ChadakoinRiverandtri6s Nutrientr Herkimer SteeleCreektri6s Nutrientr Chautauqua Chautauqua Lake,North Nutrientr Jefferson Moon Lake Nutrientr Chautauqua Chautauqua Lake,South Nutrientr Chautauqua FindleyLake Nutrientr Kings HendrixCreek Nutrients Chautauqua Hul6urt/ClymerPond Nutrientr Kings ProspectParkLake Nutrientr Clinton GreatChazy River,Lower,Main Stem Silt/Sediment Lewis Mill Creek/South Branch,and tri6s Nutrientr Clinton Lake Champlain,Main Lake,Middle Nutrientr Livingston Christie Creek and tri6s Nutrientr Clinton Lake Champlain,Main Lake,North Nutrientr Livingston Conesus Lake Nutrientr Colum6ia KinderhookLake Nutrientr Livingston MiIlCreekandminortri6s Silt/Sediment Colum6ia Ro6insonPond Nutrientr Monroe BlackCreek,Lower,andm ortri6s Nutrientr Monroe Buck Pond Nutrientr Cortland Dean Pond Nutrientr Monroe Cran6erry Pond Nutrientr 59 60 303(d)Segments Impaired by Construction Related Pollutant(s) 303(d)Segments Impaired by Construction Related Pollutant(s) Monroe Lake Ontario 5horeline,Westem Nutrients Onondaga Onondaga Lake,northem end Nutrientr Monroe LongPond Nutrientr Onondaga OnondagaLake,southemend Nutrientr Monroe MiIlCreekandtri6s Nutrientr Ontario GreatBrookandminortri6s Silt/Sediment Monroe MiIlCreek/BluePondOuHetandtri6s Nutrientr Ontario GreatBrookandminortri6s Nutrientr Monroe MinorTri6stolrondequoitBay Nutrientr Ontario HemlockLakeOuHetandminortri6s Nutrientr Monroe RochesterEm6ayment-East Nutrientr Ontario HoneoyeLake Nutrientr Monroe RochesterEm6ayment-West Nutrientr Orange GreenwoodLake Nutrientr Monroe Ship6uildersCreekandtri6s Nutrientr Orange MonhagenBrookandtri6s Nutrientr Monroe ThomasCreek/WhiteBrookandtri6s Nutrientr Orange OrangeLake Nutrientr Nassau BeaverLake Nutrientr Orleans LakeOntario5horeline,Westem Nutrientr Nassau CamaansPond Nutrientr Orleans LakeOntario5horeline,Westem Nutrientr Nassau EastMeadowBrook,Upper,andtri6s Silt/Sediment Oswego LakeNeatahwanta Nutrientr Nassau EastRockawayChannel Nutrientr Oswego PleasantLake Nutrients Nassau GrantParkPond Nutrientr Putnam BogBrookReservoir Nutrientr Nassau Hempstead Bay Nutrientr Putnam Boyd Comers Reservoir Nutrientr Nassau Hempstead Lake Nutrientr Putnam Croton Falls Reservoir Nutrientr Nassau HewlettBay Nutrientr Putnam DivertingReservoir Nutrientr Nassau HoglslandChannel Nutrientr Putnam EastBranchReservoir Nutrientr Nassau Longlsland5ound,NassauCountyWaters Nutrientr Putnam LakeCarmel Nutrients Nassau Massapequa Creek and tri6s Nutrientr Putnam Middle Branch Reservoir Nutrientr Nassau Mil6um/Parsonage Creeks,Upp,and tri6s Nutrientr Putnam Oscawana Lake Nutrientr Nassau ReynoldsChannel,west Nutrientr Putnam PalmerLake Nutrientr Nassau TidalTri6stoHempsteadBay Nutrientr Putnam WestBranchReservoir Nutrients Nassau Tri6s(fresh�toEastBay Nutrientr Queens BergenBasin Nutrientr Nassau Tri6s(fresh�toEastBay Silt/Sediment Queens FlushingCreek/Bay Nutrientr Nassau Tri6s to Smith/Halls Ponds Nutrientr Queens Jamaica Bay,Eastem,and tri6s(Queens) Nutrientr Nassau WoodmereChannel Nutrientr queens KissenaLake Nutrientr New Vork Harlem Meer Nutrientr Queens Meadow Lake Nutrientr New Vork The Lake in Central Park Nutrientr queens Willow Lake Nutrientr Niagara BergholtzCreekandtri6s Nutrientr Rensselaer NassauLake Nutrientr Niagara Hyde Park Lake Nutrientr Rensselaer Snyders Lake Nutrientr Niagara Lake Ontario 5horeline,Westem Nutrientr Richmond Grasmere Lake/Bradys Pond Nutrientr Niagara LakeOntario5horeline,Westem Nutrientr Rockland CongersLake,SwartoutLake Nutrientr Oneida Ballou,Nail Creeksand tri6s Nutrients Rockland Rockland Lake Nutrients Onondaga Har6orBrook,Lower,and tri6s Nutrientr Saratoga Ballston Lake Nutrientr Onondaga LeyCreekandtri6s Nutrientr Saratoga DwaasKillandtri6s Silt/Sediment Onondaga MinorTri6stoOnondagaLake Nutrientr Saratoga DwaasKillandtri6s Nutrientr Onondaga Ninemile Creek,Lower,and tri6s Nutrientr Saratoga Lake Lonely Nutrientr Onondaga Onondaga Creek,Lower,and tri6s Nutrientr Saratoga Round Lake Nutrientr Onondaga Onondaga Creek,Middle,and tri6s Nutrients Saratoga Tri6s ro Lake Lonely Nutrients 61 62 303(d)Segments Impaired by Construction Related Pollutant(s) 303(d)Segments Impaired by Construction Related Pollutant(s) Schenectady Collins Lake Nutrientr Warren Huddle/Finkle Brooksand tri6s Silt/Sediment Schenectady DuaneLake Nutrientr Warren IndianBrookandtri6s Silt/Sediment Schenectady MariavilleLake Nutrientr Warren LakeGeorge Silt/Sediment Schoharie EnglevillePond Nutrientr Warren Tri6stoL.George,VillageofLGeorge Silt/Sediment Schoharie SummitLake Nutrientr Washington CossayunaLake Nutrientr Seneca ReederCreekandtri6s Nutrientr Washington LakeChamplain,5outhBay Nutrientr St.Lawrence Black Lake OuHet/Black Lake Nutrientr Washington Tri6s to L.George,EastShore Silt/Sediment St.Lawrence Fish Creek and minortri6s Nutrientr Washington Wood Cr/Champlain Canal and minortri6s Nutrientr Steu6en SmithPond Nutrientr Wayne PortBay Nutrientr Suffolk Agawam Lake Nutrientr Westchester Amawalk Reservoir Nutrients Suffolk Big/Little Fresh Ponds Nutrientr Westchester Blind Brook,Upper,and tri6s Silt/Sediment Suffolk Canaan Lake Silt/Sediment Westchester Cross River Reservoir Nutrientr Suffolk Canaan Lake Nutrientr Westchester Lake Katonah Nutrientr Suffolk Flanders Bay,West/LowerSawmill Creek Nutrientr Westchester Lake Linmindale Nutrientr Suffolk Fresh Pond Nutrientr Westchester Lake Meahagh Nutrientr Suffolk GreatSouth Bay,East Nutrientr Westchester Lake Mohegan Nutrientr Suffolk GreatSouthBay,Middle Nutrientr Westchester LakeShenorock Nutrientr Suffolk GreatSouthBay,West Nutrientr Westchester Longlsland5ound,Westchester(East) Nutrients Suffolk Lake Ronkonkoma Nutrientr Westchester Mamaroneck River,Lower Silt/Sediment Suffolk Longlsland5ound,SuffolkCounty,West Nutrientr Westchester MamaroneckRiver,Upper,andminortri6s Silt/Sediment Suffolk Mattituck(Marratooka)Pond Nutrientr Westchester Muscoot/Upper New Croton Reservoir Nutrientr Suffolk Meetinghouse/TerrysCreeksandtri6s Nutrientr Westchester NewCrotonReservoir Nutrients Suffolk Mill and Seven Ponds Nutrientr Westchester Peach Lake Nutrientr Suffolk Millers Pond Nutrientr Westchester Reservoir No.l(Lake Isle) Nutrientr Suffolk Moriches Bay,East Nutrientr Westchester Saw Mill River,Lower,and tri6s Nutrientr Suffolk Moriches Bay,West Nutrientr Westchester Saw Mill River,Middle,and tri6s Nutrientr Suffolk Pemnic River,Lower,and tidal tri6s Nutrientr Westchester Sheldrake Riverand tri6s Silt/Sediment Suffolk quantuck Bay Nutrients Westchester Sheldrake Riverand tri6s Nutrients Suffolk ShinnemckBayandlnlet Nutrientr Westchester SilverLake Nutrientr Suffolk Tidaltri6stoWestMorichesBay Nutrientr Westchester TeatownLake Nutrientr Sullivan Bodine,MontgomeryLakes Nutrientr Westchester TiticusReservoir Nutrientr Sullivan Davies Lake Nutrientr Westchester Truesdale Lake Nutrients Sullivan EvensLake Nutrientr Westchester WallacePond Nutrientr Sullivan Pleasure Lake Nutrientr Wyoming Java Lake Nutrientr Tompkins Cayuga Lake,Southem End Nutrientr Wyoming Silver Lake Nutrientr Tompkins Cayuga Lake,Southem End Silt/Sediment Tompkins Owasm Inlet,Upper,and tri6s Nutrients Ulster Ashokan Reservoir Silt/Sediment Ulster EsopusCreek,Upper,andminortri6s Silt/Sediment Warren Hague Brook and tri6s Silt/Sediment 63 64 APPENDIX F—List of NYS DEC Regional Offices • - -. , -.. . .. I 50 CiaaE Rono 50 CiaaE Rono � Nn55nunrvoSUFFo�x SiorvvBaoox,Nr11]90 SiorvvBaoox,Nr11]903409 TE�.(631)444-0%5 TE�.(631)444d405 1HurviEaSPoirviP�azn, 1HurvhaSPoirviP�azn, 2 Baorvx,Kirv�S,NEwVoax, 4]-00215iSi. 4]-40215iSi. QUEErvSnrvoRicxmorvo Lorv�IS�nrvoCiir,Nr11101-540] Lorv�IS�nrvoQir,Nr11101b40] TE�.(]18)482-499] TE�.(/18)482-0933 DuicxE55,0anrv�E,Puirvnm, 21SouixPuiiCoarvEaSRono 100W��5mEAVErvuE,SuiiE1w 3 Rocx�nrvo,Su��rvnrv,U�siEa NEwPn�rz,Nv12561-1696 WxiiEP�nirv5,Nv10603 nnuWEsicxEsiEa Te�.(845)2563059 Te�.(914)428-2505 A�anrvv,Co�umain, DE�nwnaE,GaEErvE, 1150NoaixWESrcoiiRono 1130NoaixWESicoiiRono Q Morvi�omEav,OisE�o, ScxErvEcinov,Nv 12306-2014 ScxErvEcrnov,Nv 12306-2014 RErv55E�nEa,ScxErvEcinov Te�.(518)35]-20G9 Te�.(518)35]-2045 nrvo ScxoxnaiE C�irviorv,E55Ex,Fxnnn�in, ��SSiniERouiE86,POBox296 232Go�FCouaSERono 5 Fu�iorv,Hnmi�iorv, qpygaoox,Nv129]]-029G WnaaErvSaua�,Nv12885-11]2 TE�. Snanio�n,Wnxxennnu ��518)89]-1234 (518)623-12(10 Wnsxirv�iorv HERKIMER�EFFERSON, STATEOFFICEBUILDING STATEOFFICEBUILDING 6 LEWIS,ONEIDAAND 31]WASHINGTONSTREET 20]GENESEESTREET ST.LAWRENCE WATERTOWN,NV 136013]8] UTICA,NV 13501-2885 TEL.(315) TEL.(315)]85-2245 ]93-2554 BROOME,CAVUGA, CHENANGO,CORTLAND, 615 ERIE BLVD.WEST 615 ERIE BLVD.WEST ] MADISON,ONONDAGA, SVRACUSE,NV 13204-2400 SVRACUSE,NV 13204-2400 OSWEGO,TIOGA AND TEL.(315)426-]438 TEL.(315)426-]500 TOMPKINS CHEMUNG,GENESEE, LIVINGSTON,MONROE, 62]4EASTAVON-LIMA 62]4EASTAVON-LIMARD. $ OMARIO,ORLEANS, ROADAVON,NY 144149519 AVON,NY 14414-9519 SCHUVLER,SENEClS �L.(585)226-2466 TEL.(585)226-2466 STEUBEN,WAVNE AND VATES ALLEGANV, Z�pMICHIGANAVENUE 2]OMICHIGANAVENUE 9 CATTARAUGUS, gUFFALO,NY 14203-2999 BUFFALO,NV14203-2999 CHAUTAUQUA,ERIE, �L.(/16)851-]165 TEL.(/16)851-]0]0 NIAGARAAND WVOMING 65 Appendix G Historic Preservation/Endangered Species Documentation Q�L��pYioro H,�r � � a � Andrew M. Cuomo � � Governor � wEw rppK 5"�ATE t Rose Harvey New York State fJffice of Parks�, Commissioner Recreativn and Historie Preser°vati�n Division for Historic Preservation Peebles Island, PO Box 189,Waterford, New York 12188-0189 518-237-8643 www.nysparks.com December 30, 2014 Mr. Edward Curtin President Curtin Archaeological Consulting,Inc. 61 Rowland Street Ballston Spa, NY 12020 Re: DEC Tait Lane Subdivision Tait Lane, Saratoga Springs, Saratoga Counry, NY 14PR05156 Dear Mr. Curtin: Thank you for requesting the comments of the Office of Parks,Recreation and Historic Preservation (OPRI�P). We have reviewed the project in accordance with the New York State Historic Preservation Act of 1980(Section 14.09 of the New York Parks,Recreation and Historic Preservation Law). These comments are those of the OPRHP and relate only to Historic/Cultural resources. They do not include potential environmental impacts to New York State Parkland that may be involved in or near your project. Such impacts must be considered as part of the environmental review of the project pursuant to the State Environmental Qualiry Review Act(New York Environmental Conservation Law Article 8) and its implementing regulations (6 NYCRR Part 617). Based upon this review, it is the New York State Office of Parks, Recreation and Historic Preservation's opinion that your project will have no impact on archaeological and/or historic resources listed in or eligible for the New York State and National Registers of Historic Places. If further correspondence is required regarding this project,please be sure to refer to the OPRHP Project Review(PR) number noted above. Sincerely, �7 �'c'c.S�t''(�' �4x�' Ruth L. Pierpont Depury Commissioner for Historic Preservation New Y�vrk Srate �3epartment of En�ironmental Cvnsenration � di�ision v� Er��iro�merrtal Permits, Region 5 Z32 Go4f C�urse Raad, Warrensburg, I�Y 12885 � Phone: (518J 623-1�4Q • Fax: {5�$) 623-3643 � Website: ��w dec.nv.qc�� Jae Martens LETTER []F h1C7 JL1R15f]lCTIDN Commissianer EN[]ANGERE� SPECIES ACT 5eptember �2, 2��4 Kim Cvpenha�er Capeland Environmental, LLC. 3 Buchman ❑rive Albany, NY12211 Re: Tait Lan� �ity af Saratoga 5prings„ Saratoga Caunty Dear Ms. Copenhaver: The Department af Environmental Conservation �DEC) has determined that yaur proposal to develop a parc�l located an Tait Lane in the �ity af Saratcaga Springs is nat likely to result in the take af tf�rreatened or en�ianger�d s�pecies. This det�erminati�n is bas�d on the infflrmatian submitted by CvpeEarrd Environmental, LLG on Sept�mber 19, 2Q1�4 and r�viewed by staff from the Divisiar� of Fish, Wildlife, and Marine Resaurces. Therefare, na permit is required at this time pursuant to the implemer�ting regul�#ic�ns (SNYCRR P'art 18�� Qf the New York State Endangered 5pecies A�t {Article 11-0535). 6� advised that any changes in lacation, expansion af the foatprint c�f the praject, modificatiQns c�f the scape, or changes in #he timing of proposed actions that ar� not identified in the submission referenced abvve may trigger �EC auth�ri2ation. Please reinitiate cvntact with this affice if suc� activities are Gont�mplated. Please nat� that this letter does nat reliewe you af ti�e responsi�ility c�f�btaining any necessary permits ar approvals from other agencies or loca! municipafities. Sin ely, � + a . igli[� Regiona Permit Admin��tra#or Appendix H Deep Ripping and De-compaction (DEC, 2008) U U > U � U � y C r�- U cC � G � U-p U r- � � �C F V C U �) p � G F � sC. c� s �' � �Y � Q � T'C � � C � �. 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