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HomeMy WebLinkAboutEx10_TIR Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility DRAFT Renton, Washington March 10, 2021 EXHIBIT 10 RECEIVED Clark Close 04/19/2021 PLANNING DIVISION DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C This page is intentionally left blank. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | i Contents 1 Project Overview ................................................................................................................................. 1 2 Conditions and Requirements Summary ............................................................................................ 9 2.1 Core Requirements ................................................................................................................... 9 2.1.1 Core Requirement #1: Discharge at the Natural Location ........................................... 9 2.1.2 Core Requirement #2: Offsite Analysis ...................................................................... 10 2.1.3 Core Requirement #3: Flow Control Facilities ........................................................... 10 2.1.4 Core Requirement #4: Conveyance Systems ............................................................ 10 2.1.5 Core Requirement #5: Construction Stormwater Pollution Prevention ...................... 11 2.1.6 Core Requirement #6: Maintenance and Operations ................................................ 11 2.1.7 Core Requirement #7: Financial Guarantees and Liabilities...................................... 11 2.1.8 Core Requirement # 8: Water Quality Facilities ......................................................... 11 2.1.9 Core Requirement #9: On-site BMPs ......................................................................... 11 2.2 Special Requirements ............................................................................................................. 11 2.2.1 Special Requirement #1: Other Adopted Area-Specific Requirements ..................... 11 2.2.2 Special Requirement #2: Flood Hazard Area Delineation ......................................... 11 2.2.3 Special Requirement #3: Flood Protection Facilities ................................................. 12 2.2.4 Special Requirement #4: Source Controls ................................................................. 12 2.2.5 Special Requirement #5: Oil Control .......................................................................... 12 3 Offsite Analysis .................................................................................................................................. 12 3.1 Task 1: Study Area Definition and Maps ................................................................................. 12 3.2 Task 2: Resource Review ....................................................................................................... 13 3.3 Task 3: Field Inspection .......................................................................................................... 14 3.4 Task 4: Drainage System Description and Problem Descriptions .......................................... 14 3.5 Task 5: Mitigation of Existing or Potential Problems ............................................................... 16 4 Flow Control, Low Impact Development (LID) and Water Quality Facility Analysis and Design ............................................................................................................................................... 16 4.1 Part A - Existing Site Hydrology .............................................................................................. 16 4.2 Part B - Developed Site Hydrology ......................................................................................... 18 4.3 Part C - Performance Standards ............................................................................................. 20 4.4 Part D - Flow Control System .................................................................................................. 20 4.5 Part E - Water Quality System ................................................................................................ 22 5 Conveyance System Analysis and Design ........................................................................................ 22 6 Special Reports and Studies ............................................................................................................. 23 7 Other Permits .................................................................................................................................... 23 8 CSWPP Analysis and Design............................................................................................................ 23 8.1 Part A – ESC Plan Analysis and Design ................................................................................. 23 8.2 Part B – SWPPS Plan Design ................................................................................................. 25 9 Bond Quantities, Facility Summaries, and Declaration of Covenant ................................................ 25 10 Operations and Maintenance Manual ............................................................................................... 27 DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility ii | March 10, 2021 Tables Table 1. Offsite analysis drainage system table ......................................................................................... 16 Table 2. Existing land cover ........................................................................................................................ 17 Table 3. Proposed land cover ..................................................................................................................... 18 Table 4. Conveyance pipe maintenance ..................................................................................................... 27 Table 5. Grounds maintenance ................................................................................................................... 28 Table 6. Catch basin and manhole maintenance ....................................................................................... 29 Figures Figure 1. TIR worksheet ................................................................................................................................ 2 Figure 2. Site location ................................................................................................................................... 7 Figure 3. Drainage basins, subbasins, and site characteristics .................................................................... 8 Figure 4. Soils ............................................................................................................................................... 9 Figure 5. Offsite study area ......................................................................................................................... 13 Figure 6. Sensitive areas ............................................................................................................................ 14 Figure 7. Downstream conveyance ............................................................................................................ 15 Figure 8. Existing hydrology ........................................................................................................................ 18 Figure 9. Proposed hydrology ..................................................................................................................... 20 Figure 10. WWHM peak flow rate results ................................................................................................... 21 Figure 11. WWHM LID duration results ...................................................................................................... 21 Figure 12. Conveyance calculations ........................................................................................................... 22 Appendices Appendix A. Erosion Sediment Control Plan .............................................................................................A-1 DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 1 1 Project Overview An overview of project stormwater elements is given in the Technical Information Report (TIR) worksheet (Figure 1). The project is located in Renton, Washington at the King County South Wastewater Treatment Plant (South Plant) (Figure 2). The purpose of the project is to construct a small-scale, temporary pilot demonstration (not for a permanent facility) to pilot an alternative process at King County’s South Plant which will further process Class B Loop® biosolids into a Class A Loop compost. Once operational, information from the composting pilot will be used to demonstrate proof of concept and develop a business case for composting, develop reliable sources of feedstocks and bulking agents, conduct product and process optimization, develop markets and distribution channels, build community support and collect data to inform the capital project process for a larger, permanent facility (located off-site). The site is divided into two basins which are within the same threshold discharge area (TDA) with a total site area of 0.7376 acres. Both basins currently sheet flow to an adjacent access road where runoff is collected at catch basins (Figure 3) and conveyed in the wastewater treatment plant’s stormwater system to an outfall in the Black River. In Drainage Basin 1, a Finished Product Storage area will be constructed, a non-pollution generating impervious surface constructed from crushed gravel, and will continue to sheet flow to the access road with runoff collected by the stormwater system. Drainage Basin 2 will house the composting facility. As a composting facility, all stormwater that contacts any active composting areas is considered leachate. Per source control best management practice (BMP) A-24 from the King County Stormwater Pollution Prevention Manual, all leachate from composting operations should drain to a sanitary sewer. Therefore, all runoff from the impervious surfaces in Drainage Basin 2 will have all runoff collected in new catch basins which will discharge into the sanitary sewer system. The sanitary sewer system will convey collected runoff to South Plant. Soils at the project site per the NRCS Websoil Survey consist of sandy loams (Figure 4). The 2001 report by CivilTech states that existing documents indicate that the site was covered with fill material as part of the Enlargement II project in the 1980’s. At that time the elevation of the site was raised from 116 to 126 feet and was relatively flat. A 2019 survey reports a site elevation of 126 feet, so there has not been significant settling. Previous geotechnical field explorations determined the subsurface condition at the site by performing four Cone Penetration Tests (CPT). The CPT test results were correlated with borings previously completed in the vicinity of the site by Shannon & Wilson, Inc. and referenced in a 1992 report entitled Final Design Geotechnical Report, Metro Renton Wastewater Treatment Plant Enlargement III, Renton, Washington and a 1993 report entitled Geotechnical Report, Metro Renton Wastewater Treatment Plant Enlargement II, Solid Stream Improvements (Contract III C). Based on these reports, the soils at the site The capturing of Drainage Basin 2 by the sanitary sewer system provides all flow control and water quality treatment necessary. Stormwater runoff from the project site will decrease after the completion of the project and therefore meets the flow control and low impact development standards. No other stormwater related facilities are constructed as part of this project. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 2 | March 10, 2021 consist of a layer of fill soils mantling native soils. The fill soils consist of soft to stiff, sandy, clayey silt and extend to a depth of approximately 17 feet. The groundwater table is expected to be on the order of 22 to 23 feet below the ground surface. The risk of liquefaction is minimal. Figure 1. TIR worksheet King County (Ashley Mihle, PM) 1200 Monster Rd SW Renton, WA Jeff Hansen HDR 360.570.4410 SWWTP Loop Pilot Compost Facility 1200 Monster Rd SW Renton, WA T23N R04E 24 X X X Jan 12, 2020 Feb 2020 206.477.2743 DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 3 Duwamish – Green River: Black River X X DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 4 | March 10, 2021 Sandy loam 1% to 9% Low None known None known DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 5 DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 6 | March 10, 2021 X X X X X X X X X X X X Discharge to sanitary system leading to WWTP. Discharge to sanitary system leading to WWTP. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 7 Figure 2. Site location DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 8 | March 10, 2021 Figure 3. Drainage basins, subbasins, and site characteristics DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 9 Figure 4. Soils 2 Conditions and Requirements Summary This section contains a summary of the applicability of the core and special requirements as outlined in the City of Renton 2017 Surface Water Design Manual (SWDM). 2.1 Core Requirements 2.1.1 Core Requirement #1: Discharge at the Natural Location Currently, runoff from the site sheet flows to an adjacent access road where runoff is collected in catch basins and conveyed in the stormwater system through the treatment plant site, where stormwater then is discharged to an outfall to the Black River (on the east side of the South Plant site) which ultimately flows to the Puget Sound. After construction, runoff from all areas of the site except for the Finished Product Storage area will enter catch basins (that are separate from the stormwater system) and enter the sanitary sewer system which is conveyed to the South Plant’s treatment system which discharges to Puget Sound through a 12-mile long, 8-foot diameter transfer line. The DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 10 | March 10, 2021 Finished Product Storage area will continue to sheet flow to the access road with runoff collected by the existing stormwater catch basins. As discussed in Section 3.2, there are steep slopes in the vicinity of the project site. However, in all cases, stormwater will be collected into tightline systems at or immediately adjacent to the project site and will not discharge to any steep slopes. 2.1.2 Core Requirement #2: Offsite Analysis Per the SWDM all projects must submit an offsite analysis report that assesses potential offsite drainage and water quality impacts associated with development of the project site, and that proposes appropriate mitigation of those impacts. All runoff from the project area, except for the Finished Product Storage area, will be collected via catch basins and enter the sanitary sewer system for treatment at the wastewater treatment plant while the Finished Product Storage area will continue to discharge to existing stormwater catch basins. This causes a net decrease in the flows entering the stormwater system. A Level 1 Offsite Analysis was completed for the project and discussed in Section 3. 2.1.3 Core Requirement #3: Flow Control Facilities Per the SWDM, all proposed projects, including redevelopment projects, must provide onsite flow control facilities to mitigate the impacts of storm and surface water runoff generated by new impervious surface, new pervious surface, and replaced impervious surface targeted for flow mitigation. Per the City’s flow control application map, the project site is within an area where a peak rate flow control standard is used against existing site conditions. With all runoff from the project area, except for the Finished Product Storage area, being collected via catch basins and entering the sanitary sewer system for treatment at the wastewater treatment plant while the Finished Product Storage area will continue to discharge to existing stormwater catch basins, a net decrease in the flows entering the stormwater system is seen without the use of flow control infrastructure. Therefore, the project meets the peak flow rate control standard of having the proposed peak discharge rates for the 2-, 10-, and 100-year return periods staying below the existing peak discharge rates. 2.1.4 Core Requirement #4: Conveyance Systems All pipe conveyance systems were designed to convey the 25-year peak flow rate per the SWDM. Peak flow rates were calculated using the rational method per Section 3.2.1 of the SWDM. Additional discussion of conveyance systems is provided in Section 5. Modeling of the runoff from the site tributary to the existing conveyance system (Section 4.4) shows that peak runoff to the existing storm system will decrease because most of the site will change to being conveyed into the sanitary sewer system. Because of this a capacity analysis was not completed for the existing storm system. Capacity sizing was completed for the new piping to connect to the sanitary sewer system and is discussed in Section 5. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 11 2.1.5 Core Requirement #5: Construction Stormwater Pollution Prevention Construction stormwater pollution is being provided as part of the project which meets the requirements of the SWDM. Further discussion is provided in Section 8. 2.1.6 Core Requirement #6: Maintenance and Operations Ongoing maintenance and operation of the facilities after the completion of construction will be completed by King County. Additional information on O&M is provided in Section 10. 2.1.7 Core Requirement #7: Financial Guarantees and Liabilities Discussions regarding Core Requirement # 7, including information regarding the Site Improvement Bond Quantities Worksheet and Flow Control and Water Quality Facility Summary Sheet and Sketch are found in Section 9. 2.1.8 Core Requirement # 8: Water Quality Facilities Water quality treatment will be provided for all pollution-generating impervious surfaces which will drain to the sanitary sewer system and conveyed to South Plant for treatment. 2.1.9 Core Requirement #9: On-site BMPs The project can be considered a commercial composting facility where any stormwater contacting any active composting areas is considered leachate. Per BMP A-24 (commercial composting) of the King County Stormwater Pollution Prevention Manual, all leachate should drain to the sanitary sewer. Because of this all runoff from the project area, except for the Finished Product Storage area, is being collected via catch basins and discharged to the sanitary sewer system for treatment at the wastewater treatment plant while the Finished Product Storage area will continue to discharge to existing stormwater catch basins. By having most of the area drain to the sanitary sewer, a net decrease in the flows entering the stormwater system is seen without the use of flow control infrastructure. The net decrease in discharge to the stormwater system surpasses the low impact development (LID) performance standard. 2.2 Special Requirements 2.2.1 Special Requirement #1: Other Adopted Area-Specific Requirements As the project resides in the City of Renton, the project was designed to conform to the requirements of the 2017 Renton Surface Water Design Manual. 2.2.2 Special Requirement #2: Flood Hazard Area Delineation The City of Renton GIS maps show that the project site is outside of the 100-year flood plain. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 12 | March 10, 2021 2.2.3 Special Requirement #3: Flood Protection Facilities There are no flood protection facilities located on or directly adjacent to the site. 2.2.4 Special Requirement #4: Source Controls A commercial building or commercial site development permit are not needed as part of his project. Therefore this special requirement does not apply for this project. 2.2.5 Special Requirement #5: Oil Control The project does not develop or redevelop or considered a high-use site based upon the number of anticipated average daily trips (ADTs). Therefore this special requirement does not apply for this project. 3 Offsite Analysis This section summarizes the Level 1 offsite analysis completed for the project. 3.1 Task 1: Study Area Definition and Maps The offsite study area is shown on Figure 5. The offsite drainage area tributary to the project site is limited to the area between the site and the access road immediately to the west of the Finished Product Storage area (approximately 60 feet away). Therefore, offsite drainage tributary to the site is limited. The project site currently drains to a stormwater conveyance system which drains to a stormwater pump station approximately 1,100 feet downstream. The pump station then pumps through approximately 2,000 feet of force main. After flowing approximately 1,700 feet through a series of wet ponds and wetlands, stormwater is discharged to the Black River (Springbrook Creek) at an outfall approximately 4,800 feet downstream from the site. From the outfall, runoff from the site flows approximately 4,100 feet down the Black River until it reaches the Duwamish River—passing through the Black River Pump Station in-between. After the project is completed, the Finished Product Storage area will continue to follow the above flow path shown on Figure 5; however, the rest of the site will discharge to the sanitary sewer system and flow into the South Plant treatment system. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 13 Figure 5. Offsite study area 3.2 Task 2: Resource Review Figure 6 provides an overview of sensitive areas near the project site and offsite study area. Slopes hazard and seismic hazards exist within the immediate project site while wetlands and flood hazards exists in the offsite study area. As part of the resource review, the City of Renton Basin Locations map was also reviewed which shows that the site is within the Black River basin and the Duwamish watershed. A review of the Washington State Department of Ecology’s published Clean Water Act Section 303d list of polluted waters shows that the Black River (which the stormwater system discharges to) is a 303d listed water body for dissolved oxygen, bioassessment, and bacteria. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 14 | March 10, 2021 Figure 6. Sensitive areas 3.3 Task 3: Field Inspection Due to the COVID, a field inspection was not completed. However, no drainage issues were reported by South Plant staff. 3.4 Task 4: Drainage System Description and Problem Descriptions The downstream drainage path for stormwater collected by the stormwater conveyance system within a quarter mile of the site is shown on Figure 7. From the project site, stormwater is collected by several catch basins and conveyed south through a 12-inch pipe (Item #1). This is then intercepted by a 30-inch pipe and conveyed to a stormwater pump station (Item #2). The pump station then discharges to a 12-inch force main (Item #3) and then discharges to a series of wet ponds and a wetland. There are no known drain problems, inadequate capacity, or erosion problems within a quarter mile downstream from the project site. Any unidentified issues will not be made worse by the project due to the project reducing the stormwater runoff from the project site. A summary of the downstream conveyance features and distance from the site discharge are given in Table 2. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 15 Figure 7. Downstream conveyance DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 16 | March 10, 2021 Table 1. Offsite analysis drainage system table Symbol Drainage component Drainage component description Slope % Distance from site discharge Existing problems Potential problems Observations Item #1 Existing 100 ft of 12-inch pipe Collects runoff from access road CBs and conveys to 30-inch pipe. Unknown 0 to 100 ft None None None Item #2 Existing 1,000 ft of 30-inch pipe Conveys stormwater to Pump Station Unknown 100 to 1,100 ft None None None Item #3 Pump station and existing 2,000 ft of 12-inch force main Conveys stormwater to wet ponds N/A 1,100 to 3,100 ft None None None 3.5 Task 5: Mitigation of Existing or Potential Problems No existing problems are known within a quarter mile of the site discharge. Once the project is completed, due to all areas of the site except for the Finished Product Storage area draining to the sanitary sewer system, the runoff to the storm system will decrease which will mitigate any additional runoff generated by the impervious surfaces added by the project. Therefore, no potential problems are expected by the creation of this project. 4 Flow Control, Low Impact Development (LID) and Water Quality Facility Analysis and Design 4.1 Part A - Existing Site Hydrology The site is divided into two basins which are within the same TDA with a total site area of 0.7376 acres. Both basins currently sheet flow to an adjacent access road where runoff is collected at catch basins (Figure 3) and conveyed in the wastewater treatment plant’s stormwater system to an outfall in the Black River (see Figure 5and Figure 7). The existing hydrology and land cover are shown on Figure 8 with land cover areas summarized in Table 2. The soils at the site consist of a layer of fill soils mantling native soils. The fill soils consist of soft to stiff, sandy, clayey silt and extend to a depth of approximately 17 feet. Soils were assumed to have characteristics of till for modeling. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 17 Table 2. Existing land cover Land cover Area (acres) Drainage Basin 1 Impervious 0.0334 Pervious 0.0563 Total area 0.0897 Drainage Basin 2 Impervious 0.4727 Pervious 0.1752 Total area 0.6479 Total Project Site Impervious 0.5061 Pervious 0.2315 Total area 0.7376 Offsite run-on to Drainage Basin 1 Impervious 0.0628 Pervious 0.0677 Total area 0.1305 DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 18 | March 10, 2021 Figure 8. Existing hydrology 4.2 Part B - Developed Site Hydrology In Drainage Basin 1, a Finished Product Storage area will be constructed, a non-pollution generating impervious surface constructed from crushed gravel, and will continue to sheet flow to the access road with runoff collected by the stormwater system. Drainage Basin 2 will house the composting facility and will have all runoff collected in new catch basins which will discharge into the sanitary sewer system. The sanitary sewer system will convey collected runoff to South Plant. The capturing of Drainage Basin 2 by the sanitary sewer system provides any flow control and water quality treatment necessary. No other stormwater related facilities are constructed as part of this project. The proposed hydrology and land cover are shown on Figure 8 with land cover areas summarized in Table 3. No change is soils will occur as part of the project. Soils were assumed to have characteristics of till for modeling. Table 3. Proposed land cover Land cover Area (acres) Drainage Basin 1 Impervious 0.0897 DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 19 Table 3. Proposed land cover Land cover Area (acres) Pervious 0.0000 Total area 0.0897 Drainage Basin 2 Impervious 0.5492 Pervious 0..0987 Total area 0.6479 Total Project Site Impervious 0.6389 Pervious 0.0987 Total area 0.7376 Offsite run-on to Drainage Basin 1 Impervious 0.0628 Pervious 0.0677 Total area 0.1305 The proposed site will create 5,731 square feet of new impervious surface while converting 390 square feet of impervious surface to pervious surface for a net increase of 5,341 square feet of impervious surface. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 20 | March 10, 2021 Figure 9. Proposed hydrology 4.3 Part C - Performance Standards Flow Control Standard Per the City’s flow control application map, the project site is within an area where a peak rate flow control standard is used against existing site conditions. Therefore, peak flow rate from the proposed site for the 2-year, 10-year, and 100-year events must be at or below the peak flow rate for those events for the existing site conditions. Given the downstream conditions described in Section 3, no additional flow control or mitigation is needed for this project. LID Performance Standard To meet Minimum Requirement #9, the project will meet the LID performance standard which is defined as having stormwater discharges shall match developed discharge durations to pre-developed durations for the range of pre-developed discharge rates from 8% of the 2-year peak flow to 50% of the 2-year peak flow—assuming historical (forested) site conditions as the predeveloped condition. 4.4 Part D - Flow Control System Per the City’s flow control application map, the project site is within an area where a peak rate flow control standard is used against existing site conditions. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 21 A Western Washington Hydrology Model (WWHM) model was used to determine the peak flow rates generated given the existing site and the proposed site. As only the Finished Product Storage area will continue to drain to the stormwater system once the project is completed, this is the only area included in the proposed condition in the WWHM model and is all impervious area. In the existing model, the entire site is included using the current land cover. The peak flow rate results from the WWHM model are summarized in Figure 10 which shows that the peak flow rate control standard is met by keeping the peak discharge rates for the 2-, 10-, and 100-year return periods below the existing peak discharge rates. Figure 10. WWHM peak flow rate results The WWHM model was used to determine of the LID duration standard was met to fulfill Core Requirement #9. The LID duration results from the WWHM model are summarized in Figure 11 which shows that the LID duration standard is met. Figure 11. WWHM LID duration results DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 22 | March 10, 2021 4.5 Part E - Water Quality System All pollution generation impervious surfaces will drain to catch basins that are connected to the sanitary sewer system which conveys to South Plant for treatment. 5 Conveyance System Analysis and Design Conveyance piping was sized to convey the 25-year, 24-hour design storm calculated using the rational method as outlined in Section 3.2.1 of the SWDM. The manning’s equation was used to verify that the capacity of a full flowing pipe exceeds the flow generated by the 25-year, 24-hour design storm. The calculations are shown in Figure 12. The rational method calculated a peak 25-year flow rate of 1.41 cubic feet per second (cfs). A 12-inch pipe placed at a slope of 0.0056 feet per foot has a capacity of 2.48 cfs which exceeds the calculated 1.44 cfs peak flow rate. 12-inch pipes will be used to connect the proposed catch basins to the sanitary sewer system. Figure 12. Conveyance calculations DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 23 6 Special Reports and Studies No additional special reports or studies were created as part of this project. 7 Other Permits The following permits are being acquired for the completion of this project: • City of Renton o Type II Temporary Use Permit o Civil Construction Permit / Grading Permit o Critical Areas Permit • Puget Sound Clean Air Agency o Notice of Construction • King County WTD o SEPA Environmental Checking / Threshold Determination 8 CSWPP Analysis and Design The project will follow construction stormwater pollution prevention (CSWPP) standards as outlined in Appendix D of the SWDM. A CSWPP Plan with its associated erosion sediment control (ESC) plan and stormwater pollution prevention and spill control (SWPPS) plan are included in Appendix A. 8.1 Part A – ESC Plan Analysis and Design Site specific details for temporary erosion and sediment control (ESC) that will be used during construction are included in Appendix A. In addition to the site specific plans, the following general Best Management Practices (BMPs) for ESC will be used in accordance with Appendix D of the SWDM. • Marking clearing limits - Prior to any site clearing or grading, areas to remain undisturbed during project construction shall be delineated and physically marked on the project site. • Cover measures - Temporary and permanent cover measures shall be provided when necessary to protect disturbed areas. The intent of these measures is to prevent erosion by having as much area as possible covered during any period of precipitation. • Perimeter protection - Perimeter protection to filter sediment from sheet flow shall be provided downstream of all disturbed areas prior to upslope grading. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 24 | March 10, 2021 • Traffic area stabilization - Unsurfaced entrances, roads, and parking areas used by construction traffic shall be stabilized to minimize erosion and tracking of sediment offsite. • Sediment retention - Surface water collected from all disturbed areas of the site shall be routed through a sediment pond or trap prior to release from the site, except those areas at the perimeter of the site small enough to be treated solely with perimeter protection. Sediment retention facilities shall be installed prior to grading any contributing area. • Surface water collection - Surface water collection measures (e.g., ditches, berms, etc.) shall be installed to intercept all surface water from disturbed areas, convey it to a sediment pond or trap, and discharge it downstream of any disturbed areas. Areas at the perimeter of the site, which are small enough to be treated solely with perimeter protection, do not require surface water collection. Surface water collection measures shall be installed concurrently with or immediately following rough grading and shall be designed, constructed, and stabilized as needed to minimize erosion. • Dewatering control – Interception of the water table is not expected to occur as part of this project; therefore, dewatering activities are not planned to occur. However, if dewatering were to take place, the water resulting from construction site de-watering activities must be treated prior to discharge or disposed of as specified. • Dust control - Preventative measures to minimize wind transport of soil shall be implemented when a traffic hazard may be created or when sediment transported by wind is likely to be deposited in water resources. • Flow control - Surface water from disturbed areas must be routed through the project's onsite flow control facility or other provisions must be made to prevent increases in the existing site conditions 2-year and 10-year runoff peaks discharging from the project site during construction. • Control pollutants - Stormwater pollution prevention (SWPPS) measures are required to prevent, reduce, or eliminate the discharge of pollutants to onsite or adjacent stormwater systems or watercourses from construction-related activities such as materials delivery and storage, onsite equipment fueling and maintenance, demolition of existing buildings and disposition of demolition materials and other waste, and concrete handling, washout and disposal. • Protecting existing and proposed flow control BMPs - Sedimentation and soil compaction reduce the infiltration capacity of native and engineered soils. Protection measures shall be applied/installed and maintained so as to prevent adverse impacts to existing flow control BMPs and areas of proposed flow control BMPs for the project. Adverse impacts can prompt the requirement to restore or replace affected BMPs. • Maintain protective BMPs - Protection measures shall be maintained to assure continued performance of their intended function, to prevent adverse impacts to existing flow control BMPs and areas of proposed flow control BMPs, and protect other disturbed areas of the project. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 25 • Manage the project - Coordination and timing of site development activities relative to ESC concerns, and timely inspection, maintenance and update of protective measures are necessary to effectively manage the project and assure the success of protective ESC and SWPPS design and implementation. 8.2 Part B – SWPPS Plan Design The general Best Management Practices (BMPs) outlined in the King County Stormwater Pollution Prevention Manual for the following activities to prevent the contribution of pollutants to surface and stormwater during construction will be followed. • A-27: Clearing, Grading, and Preparation of Land for Small Construction Projects • A-28: Demolition of Buildings • A-29: Building Repair, Remodeling, and Construction The general BMPs outlined in the King County Stormwater Pollution Prevention Manual for the following activities to prevent the contribution of pollutants to surface and stormwater after construction will be followed. • A-1: Required Best Management Practices for all Properties with Commercial Activities • A-24: Commercial composting Additionally, some of ESC BMPs described in Section 8.1 will also be utilized for SWPPS. 9 Bond Quantities, Facility Summaries, and Declaration of Covenant A preliminary Site Improvement Bond Quantities Worksheet is included. While the project resides on a parcel for a public entity (King County Department of Natural Resources & Parks Wastewater Treatment Division), cost items associated with the project have been entered into the Site Improvement Bond Quantities Worksheet as a “Private Improvement” as these will be maintained by King County and not the City of Renton. The site does not install a flow control or water quality treatment facility (and instead discharges a portion of the site to the sanitary sewer). Therefore a Flow Control and Water Quality Facility Summary Sheet and Sketch is not included. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 26 | March 10, 2021 DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 27 10 Operations and Maintenance Manual Stormwater features of this project include catch basins and conveyance pipes. The following tables outline operation and maintenance (O&M) requirements for the various stormwater features that are a part of the project. Table 4. Conveyance pipe maintenance DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 28 | March 10, 2021 Table 5. Grounds maintenance DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | 29 Table 6. Catch basin and manhole maintenance DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility 30 | March 10, 2021 DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility March 10, 2021 | A-1 Appendix A. Erosion Sediment Control Plan DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C Technical Information Report (TIR) – 60% Design King County South Wastewater Treatment Plant Loop Pilot Compost Facility A-2 | March 10, 2021 This page is intentionally left blank. DocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C WKLWKLWKLWKLWKLWKLWKLWKLX X X X SFSFSFSFSFSFSFSFSFSFSFPARCEL NO.2423049006231541133COMPOSTBUNKERBIOFILTERCURINGAREAFINISHED PRODUCTSTORAGESCREENINGAREAMIXINGAREABIOSOLIDSBUNKERBULK MATERIALBUNKERMIXEDBUNKERCB CB 12345DESIGNED/DRAWN:PROJECT ENGINEER:PROJECT ACCEPTANCE:DESIGN APPROVAL:CONTRACT NO:DRAWING NO:SCALE:PROJECT FILE NO:DEPARTMENT OF NATURAL RESOURCES & PARKSWASTEWATER TREATMENT DIVISIONDATE:SHT NO / TOTALREVNO:BORDER FILE EDITION: KCWTD-2015R0-Dsize-TB-Border12345EFGHBCDACHECKED:REFERENCE1"0C:\pwworking\west01\d1361620\1136470-SP220-C-10001.dwg | Layout: C-10001PLOTTED: Feb 28, 2020-08:08:51am By JALFONSOXREFS: KCWTD-Dsize-TB-Border.dwg; 10175211_DE.dwg; X-MECH.dwg; 10175211_BA.dwg; X-EXISTING-UTILITIES.dwg; 10175211_EG-Display.dwg; 10175211_UT.dwgIMAGES: HDR_Logo_K.jpg;NOREVISION DESCRIPTIONBYAPVDDATEEFGHBCDAKING COUNTY SOUTH WASTEWATER TREATMENT PLANTLOOP PILOT COMPOST FACILITY#C1136470 CALL 24 HOURS BEFORE YOU DIG: 811INFORMATION ONLYPRELIMINARY ISSUE DRAWINGEROSION CONTROL PLANAS NOTED#0CONSTRUCTION NOTES:SILT CONTROL FENCE PER DETAIL C-40001-3.TEMPORARY CONSTRUCTION ENTRANCE PERDETAIL C-40001-1.CATCH BASIN PROTECTION PER DETAIL C-40001-2.LIMITS OF CONSTRUCTIONPROTECT EXISTING STAIRWELL.23NOTES:1.THIS DRAWING WAS PREPARED TO OBTAIN PERMITS ANDREPRESENTS A TESC AND TEMPORARY DRAINAGE SYSTEM THATCOULD BE PROVIDED BY THE CONTRACTOR DURING THE INITIALPHASE OF WORK.2.THE CONTRACTOR IS RESPONSIBLE FOR DEVELOPING ANDIMPLEMENTING A CONTRACTOR-PREPARED CONSTRUCTIONSTORMWATER POLLUTION PREVENTION PLAN (CSWPPP) WHICHINCLUDES AN EROSION AND SEDIMENT CONTROL PLAN (CESCP) INACCORDANCE WITH SPECIFICATION SECTION 31 25 00. THE PLAN ISTO BE COMPLETE AND IMPLEMENTED PRIOR TO ANY GROUNDDISTURBING ACTIVITY.3.WHEN POSSIBLE, CONTRACTOR TO PROVIDE TEMPORARY SUMPSWITHIN THE WORK AREA FOR STORAGE OR FROM WHICH PUMPINGCAN OPTIMIZE CONTROL OF RUNOFF FROM SEDIMENT GENERATINGAREAS.4.CONSTRUCTION RUNOFF SHALL BE CONTROLLED AND CONVEYEDAND NOT BE ALLOWED TO ENTER BEYOND THE CONSTRUCTIONLIMITS AT ANY TIME, UNLESS AUTHORIZED IN WRITING BY THEPROJECT REPRESENTATIVE.5.CESCP SHALL PROVIDE FOR INSTALLATION AND MAINTENANCE OFCATCH BASIN INSERTS IN ALL EXISTING AND NEW CATCH BASINSAND MH THAT CAPTURE CONSTRUCTION RUNOFF.6.SPOILS & STAGING AREA TO BE GRADED TO NATURAL GROUND ANDVEGETATION ESTABLISHED PRIOR TO ACCEPTANCE.7.EXISTING CONTOUR INFORMATION SHOWN IS AT ONE (1) FOOTINTERVALS.8.ON-SITE DUST CONTROL SHALL BE IN ACCORDANCE WITH SECTIOND.3.8 OF KING COUNTY'S SURFACE WATER DESIGN MANUAL.9.CONTRACTOR WILL CLEAN-UP SPOILS THAT MIGRATE ONTO THEROADS A MINIMUM OF ONCE DAILY.10.ANY DIRT, MUD, ROCK, DEBRIS, ETC. THAT IS SPILLED TRACKED, OROTHERWISE DEPOSITED ON ANY EXISTING PAVED STREETS SHALLBE CLEANED UP IMMEDIATELY.541SCALE:EROSION CONTROL PLAN1" = 20'PLANC-10001102040601" = 20'C:\pwworking\west01\d1361620\1136470-SP220-C-10001.dwg, C-10001, 2/28/2020 8:08:46 AM, JALFONSO60% DESIGNEROSION SEDIMENTCONTROL PLANDocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C EXISTING ROADR=25' MIN.INSTALL DRIVE WAY CULVERTIF THERE IS A ROADSIDEDITCH PRESENT, AS PER KINGCOUNTY ROAD STANDARDS4"-8" QUARRY SPALLS12" MIN.THICKNESS15' MIN'GEOTEXTILE ASDIRECTED BYPROJECTREPRESENTATIVEMIN. 100' OR ASDIRECTED BY PROJECT REPRESENTATIVE AS PER KING COUNTY ROAD STANDARDS,DRIVEWAYS SHALL BE PAVED TO THEEDGE OF R-O-W PRIOR TO INSTALLATIONOF THE CONSTRUCTION ENTRANCE TOAVOID DAMAGING OF THE ROADWAY.IT IS RECOMMENDED THAT THEENTRANCE BE CROWNED SO THATRUNOFF DRAINS OFF THE PAD.PROVIDE FULL WIDTH OFINGRESS/EGRESS AREA.2'12" MIN2"x2" BY 14 GA. WIRE OREQUIVALENT, IF STANDARDSTRENGTH FABRIC USEDFILTER FABRICBACKFILL TRENCH WITHNATIVE SOIL OR 3/4" - 1.5"WASHED GRAVEL10'-25'SPACING VARIES DEPENDINGON SOIL TYPE AND SLOPESTEEPNESSMIN 4"x4" TRENCH2"x2" WOOD POSTS, STEELFENCE POSTS, OR EQUIVALENTCOMPOST SOCKSOVERFLOW (TO BYPASSPEAK STORM VOLUMES)TO PREVENT SEDIMENT FROM ENTERING STORMDRAINAGE SYSTEMS PRIOR TO PERMANENTSTABILIZATION OF THE DISTURBED AREA.REASON:PRE-MANUFACTUREDCATCH BASIN ORINLET INSERTINSERTS SHOULD BE INSPECTED DAILY AND AFTERSIGNIFICANT RAINFALL. CLEAN OR REPLACE INSERTSWHEN HALF OF THE TRAP IS FILLED WITH SEDIMENT.NOTE: SEDIMENTATIONTRAPS SHALL BECLEANED AT REGULARINTERVALS AND SHALLREMAIN IN PLACE UNTILCONSTRUCTION ISCOMPLETE.12345DESIGNED/DRAWN:PROJECT ENGINEER:PROJECT ACCEPTANCE:DESIGN APPROVAL:CONTRACT NO:DRAWING NO:SCALE:PROJECT FILE NO:DEPARTMENT OF NATURAL RESOURCES & PARKSWASTEWATER TREATMENT DIVISIONDATE:SHT NO / TOTALREVNO:BORDER FILE EDITION: KCWTD-2015R0-Dsize-TB-Border12345EFGHBCDACHECKED:REFERENCE1"0C:\pwworking\west01\d1361620\1136470-SP220-C-40001.dwg | Layout: C-40001PLOTTED: Feb 28, 2020-09:27:23am By JALFONSOXREFS: KCWTD-Dsize-TB-Border.dwgIMAGES: HDR_Logo_K.jpg;NOREVISION DESCRIPTIONBYAPVDDATEEFGHBCDAKING COUNTY SOUTH WASTEWATER TREATMENT PLANTLOOP PILOT COMPOST FACILITY#C1136470 CALL 24 HOURS BEFORE YOU DIG: 811INFORMATION ONLYPRELIMINARY ISSUE DRAWINGCIVIL DETAILSAS NOTED#0SCALE:TYPICAL COMPOST SOCK/SILT FENCENTSDETAILC-400013SCALE: STORM DRAIN INLET INSERTNTSDETAILC-400012SCALE: STABILIZED CONSTRUCTION ENTRANCENTSDETAILC-400011C:\pwworking\west01\d1361620\1136470-SP220-C-40001.dwg, C-40001, 2/28/2020 9:27:22 AM, JALFONSO60% DESIGNEROSION SEDIMENTCONTROL PLANDocuSign Envelope ID: 6CE3899A-1D0A-43F4-A678-6B93041EB30C