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***Design according to the criteria in Table 3 of the [https://efotg.sc.egov.usda.gov/api/CPSFile/20940/313_OH_CPS_Waste_Storage_Facility_2017 NRCS 313, Waste Storage Facility technical standard]. | ***Design according to the criteria in Table 3 of the [https://efotg.sc.egov.usda.gov/api/CPSFile/20940/313_OH_CPS_Waste_Storage_Facility_2017 NRCS 313, Waste Storage Facility technical standard]. | ||
***Install according to [https://efotg.sc.egov.usda.gov/api/CPSFile/5425/000_WI_CS-202_Polyethylene_Geomembrane_Lining_MAR-2019 NRCS Wisconsin Construction Specification 202], Polyethylene Geomembrane Lining (You can also access the specification here - [[File:000 WI CS-202 Polyethylene Geomembrane Lining MAR-2019.pdf]]). | ***Install according to [https://efotg.sc.egov.usda.gov/api/CPSFile/5425/000_WI_CS-202_Polyethylene_Geomembrane_Lining_MAR-2019 NRCS Wisconsin Construction Specification 202], Polyethylene Geomembrane Lining (You can also access the specification here - [[File:000 WI CS-202 Polyethylene Geomembrane Lining MAR-2019.pdf]]). | ||
− | **PVC (Polyvinyl chloride) - follow specifications in MPCA's [ | + | **PVC (Polyvinyl chloride) - follow specifications in MPCA's [https://www.pca.state.mn.us/sites/default/files/wq-wwtp5-32.pdf PVC liner guidance]. '''NOTE: 30 mil smooth polyvinyl chloride geomembrane is functionally equivalent to 60 mil textured high density polyethylene.''' |
**GCL (geosynthetic clay liner) liner criteria: | **GCL (geosynthetic clay liner) liner criteria: | ||
***Design according to the criteria in [https://efotg.sc.egov.usda.gov/api/CPSFile/20940/313_OH_CPS_Waste_Storage_Facility_2017 Table 4 of NRCS 313, Waste Storage Facility technical standard]. | ***Design according to the criteria in [https://efotg.sc.egov.usda.gov/api/CPSFile/20940/313_OH_CPS_Waste_Storage_Facility_2017 Table 4 of NRCS 313, Waste Storage Facility technical standard]. |
Liners are designed to limit infiltration of water from a stormwater Best Management Practice (BMP) into underlying and adjacent soil.
Under the Construction Stormwater General Permit:
The following sectors covered under an Industrial Stormwater Permit are required to have liners for ponds constructed after April 5, 2010.
Liners are recommended for the following conditions.
Specifications are provided for different levels of liners. Although specifications for clay liners are included with Levels 1 and 2, clay liners are generally not recommended. Links to information on design and installation is recommended. For additional information see additional information.
The following table summarizes the process for selecting a liner.
Design process for selecting the appropriate liner level.
Link to this table
Condition | Design level | Note |
---|---|---|
Filtration practices with less than 3 feet of separation to seasonal saturated soil or bedrock | 1 | Required under the Construction Stormwater permit |
BMP in confirmed potential stormwater hotspot with high or very high groundwater pollution potential or areas where infiltrating water will mobilize contaminants in soil or groundwater | 1 | Applies to all post-construction BMPs. See section on Potential stormwater hotspots for more information |
Constructed ponds with less than 3 feet separation from seasonally high water table in a potential hotspot | 1 | |
Constructed wet ponds underlain by soils with an infiltration rate of 0.3 inches per hour or greater (HSG A or B soils) | 1 | To maintain a permanent pool |
Karst terrain with high or very high groundwater pollution potential1 | 1 | See section on karst for more information |
Prevent groundwater intrusion into a BMP requiring aerobic conditions, such as iron-enhanced media | 1 | |
Maintain permanent pool in constructed ponds or constructed wetlands in areas underlain by geologic material that is fractured or has a high infiltration rate | 2 | |
Separation distance from a BMP cannot be achieved | 2 | |
Separate tree BMP from road, parking lot, sidewalk or adjacent walls or building foundation | 2 | To prevent tree root intrusion. See link |
1 Groundwater pollution potential is determined based on hydrogeologic conditions, which are used to estimate the time of travel for water and conservative chemicals to pass through the soil and vadose zone and into groundwater.