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+ | [[File:Liner example.jpg|300 px|thumb|alt=picture of a liner|<font size=3>Example of an impermeable liner for a stormwater best management practice. Source: [https://www.pwdplanreview.org/manual/chapter-4/4.12-outlet-controls Philadelphia Water (PWD) Stormwater Management Guidance Manual].</font size>]] | ||
+ | [[File:Pdf image.png|100px|thumb|left|alt=pdf image|<font size=3>[https://stormwater.pca.state.mn.us/index.php?title=File:Liners_for_stormwater_management.pdf Download pdf]</font size>]] | ||
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Liners are designed to limit infiltration of water from a stormwater Best Management Practice (BMP) into underlying and adjacent soil. | Liners are designed to limit infiltration of water from a stormwater Best Management Practice (BMP) into underlying and adjacent soil. | ||
==Conditions where liners are required== | ==Conditions where liners are required== | ||
Under the Construction Stormwater General Permit: | Under the Construction Stormwater General Permit: | ||
− | *The Permittee(s) must ensure [http://stormwater.pca.state.mn.us/index.php/Stormwater_filtration_Best_Management_Practices filtration systems] with less than three (3) feet of separation from seasonally saturated soils or from bedrock are constructed with an impermeable liner | + | *The Permittee(s) must ensure [http://stormwater.pca.state.mn.us/index.php/Stormwater_filtration_Best_Management_Practices filtration systems] with less than three (3) feet of separation from seasonally saturated soils or from bedrock are constructed with an impermeable liner; |
− | * | + | *Permittees must design basins using an impermeable liner if located within active karst terrain. |
− | |||
− | + | The following sectors covered under an [http://stormwater.pca.state.mn.us/index.php/Industrial_stormwater_program Industrial Stormwater Permit] are required to have liners for ponds constructed after April 5, 2010. | |
− | * | + | *Automobile salvage yards (Sector M) |
− | * | + | *Air transportation facilities that conduct deicing activities (Sector S) |
− | * | + | *Hazardous waste treatment, storage, or disposal facilities operating as a Solid Waste Management Unit (Sector K) |
− | * | + | *Timber product facilities operating under an SIC code of 2491 (Sector A - wood preserving) |
− | * | + | *Scrap recycling and waste recycling facilities (Sector N) |
==Conditions where liners are recommended== | ==Conditions where liners are recommended== | ||
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*Permeable pavement designs in compacted fill soils. | *Permeable pavement designs in compacted fill soils. | ||
*Areas where seepage from a BMP into the groundwater would otherwise occur but should be avoided due to risk of groundwater contamination. These include | *Areas where seepage from a BMP into the groundwater would otherwise occur but should be avoided due to risk of groundwater contamination. These include | ||
− | **[http://stormwater.pca.state.mn.us/index.php/Potential_stormwater_hotspots#Determining_if_a_PSH_is_a_hotspot Confirmed stormwater hotspots] in areas where the potential for groundwater pollution is high. The potential for groundwater pollution can be determined using existing pollution sensitivity maps developed by the [ | + | **[http://stormwater.pca.state.mn.us/index.php/Potential_stormwater_hotspots#Determining_if_a_PSH_is_a_hotspot Confirmed stormwater hotspots] in areas where the potential for groundwater pollution is high. 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. The potential for groundwater pollution can be determined using existing pollution sensitivity maps developed by the [https://www.dnr.state.mn.us/waters/groundwater_section/mapping/index.html Minnesota Department of Natural Resources]. Note these maps cover large geographic areas and should be used for initial screening at a site. |
− | ** | + | **Areas where infiltrating water will mobilize contaminants in soil or groundwater |
*Locations where recommended horizontal or vertical [http://stormwater.pca.state.mn.us/index.php/Stormwater_infiltration_and_setback_%28separation%29_distances separation distances] cannot be achieved | *Locations where recommended horizontal or vertical [http://stormwater.pca.state.mn.us/index.php/Stormwater_infiltration_and_setback_%28separation%29_distances separation distances] cannot be achieved | ||
*Use impermeable liner as needed to separate [http://stormwater.pca.state.mn.us/index.php/Fact_sheet_for_tree_trenches_and_tree_boxes tree BMPs] from road, parking lot, sidewalk or adjacent walls or building foundation | *Use impermeable liner as needed to separate [http://stormwater.pca.state.mn.us/index.php/Fact_sheet_for_tree_trenches_and_tree_boxes tree BMPs] from road, parking lot, sidewalk or adjacent walls or building foundation | ||
==Liner specifications== | ==Liner specifications== | ||
− | 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 [[Liners for stormwater | + | {{alert|[http://www.deeproot.com/blog/blog-entries/mil-thickness-what-does-it-mean-and-how-do-i-measure-it Mil Thickness: What Does It Mean, and How Do I Measure It?]|alert-info}} |
+ | |||
+ | 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 [[Liners for stormwater management#Additional information|additional information]]. | ||
*Level 1 liner - for sites with high potential for groundwater contamination | *Level 1 liner - for sites with high potential for groundwater contamination | ||
**HDPE (high density polyethylene) liner criteria: | **HDPE (high density polyethylene) liner criteria: | ||
***Minimum thickness shall be 60 mils. | ***Minimum thickness shall be 60 mils. | ||
− | ***Design according to the criteria in Table 3 of the [ | + | ***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/ | + | ***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 [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 [ | + | ***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]. |
− | *** Install according to [https://efotg.sc.egov.usda.gov/ | + | *** Install according to [https://efotg.sc.egov.usda.gov/api/CPSFile/5426/000_WI_CS-203_Geosynthetic_Clay_Liner_OCT-2019 NRCS Wisconsin Construction Specification 203], Geosynthetic Clay Liner. (You can download the document here - [[File:000 WI CS-203 Geosynthetic Clay Liner OCT-2019.pdf]] |
**Clay liner criteria (essentially the same as the clay below landfills but not as thick): | **Clay liner criteria (essentially the same as the clay below landfills but not as thick): | ||
***50 percent fines (200 sieve) or more | ***50 percent fines (200 sieve) or more | ||
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***Average PI of 12 or more, with no values less than 10 | ***Average PI of 12 or more, with no values less than 10 | ||
***Clay installed wet of optimum if using standard Proctor, and 2 percent wet of optimum if using modified Proctor | ***Clay installed wet of optimum if using standard Proctor, and 2 percent wet of optimum if using modified Proctor | ||
− | ***Clay compaction and documentation as specified in [https://efotg.sc.egov.usda.gov/references/ | + | ***Clay compaction and documentation as specified in [https://efotg.sc.egov.usda.gov/references/Delete/2016-3-26/WCS-300-Final.pdf NRCS Wisconsin Construction Specification 300], Clay Liners (or download here - [[File:WCS-300-(2018-04).pdf]]) |
***Minimum thickness of two feet | ***Minimum thickness of two feet | ||
***Specify method for keeping the pool full or use of composite soils below liner | ***Specify method for keeping the pool full or use of composite soils below liner | ||
*Level 2 liner - for sites with low groundwater pollution potential | *Level 2 liner - for sites with low groundwater pollution potential | ||
**HDPE liner criteria: | **HDPE liner criteria: | ||
− | ***Minimum thickness shall be | + | ***Minimum thickness shall be 40 mils or greater |
− | ***Design according to the criteria in Table 3 of the [ | + | ***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/ | + | ***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 download the document here - [[File:000 WI CS-202 Polyethylene Geomembrane Lining MAR-2019.pdf]] |
**Silt/Clay liner criteria: | **Silt/Clay liner criteria: | ||
***50 percent fines (200 sieve), or 20 percent fines and a PI of 7 | ***50 percent fines (200 sieve), or 20 percent fines and a PI of 7 | ||
***An in-place hydraulic conductivity of 1 x 10<sup>-5</sup> centimeters per second or less | ***An in-place hydraulic conductivity of 1 x 10<sup>-5</sup> centimeters per second or less | ||
− | ***Soil compaction and documentation as specified in [https://efotg.sc.egov.usda.gov/ | + | ***Soil compaction and documentation as specified in [https://efotg.sc.egov.usda.gov/api/CPSFile/5454/000_WI_CS-204_-Earthfill_for_Waste_Storage_Facilities_SEP-2018 NRCS Wisconsin Construction Specification 204], Earthfill for Waste Storage Facilities (You can download the document here - [[File:000 WI CS-204 -Earthfill for Waste Storage Facilities SEP-2018.pdf]]) |
***Minimum thickness of two feet | ***Minimum thickness of two feet | ||
***Specify method for keeping the pool full or use of composite soils below liner | ***Specify method for keeping the pool full or use of composite soils below liner | ||
*Liners for facilities covered by an Industrial Stormwater Permit and where ponds are allowed with a constructed liner | *Liners for facilities covered by an Industrial Stormwater Permit and where ponds are allowed with a constructed liner | ||
**The industrial stormwater pond must be lined with a synthetic liner that is chemically compatible with materials expected to enter the pond, must be Ultra Violet (UV) stable, and must be designed to restrict infiltration to less than 500 gallons per acre per day (5.41 x 10<sup>-7</sup> centimeters per second). | **The industrial stormwater pond must be lined with a synthetic liner that is chemically compatible with materials expected to enter the pond, must be Ultra Violet (UV) stable, and must be designed to restrict infiltration to less than 500 gallons per acre per day (5.41 x 10<sup>-7</sup> centimeters per second). | ||
− | **The industrial stormwater pond must be designed in accordance with accepted engineering practices. (See MPCA [ | + | **The industrial stormwater pond must be designed in accordance with accepted engineering practices. (See MPCA [https://www.pca.state.mn.us/sites/default/files/wq-wwtp5-53.pdf Recommended Pond Design Criteria], [https://www.pca.state.mn.us/sites/default/files/wq-wwtp5-60.pdf Polyvinyl Chloride Liner guidelines], and [https://www.pca.state.mn.us/sites/default/files/wq-wwtp5-32.pdf High Density Polyethylene Liner Guidance]) |
==Decision process for selecting liner level== | ==Decision process for selecting liner level== | ||
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==Additional information== | ==Additional information== | ||
− | *[ | + | *[https://dnr.wi.gov/topic/stormwater/documents/1001WetDetentionPond.pdf Wisconsin guidance] for wet detention pond |
*[http://doee.dc.gov/sites/default/files/dc/sites/ddoe/publication/attachments/Ch3.9StormwaterPonds_0.pdf Washington D.C. guidance] for ponds | *[http://doee.dc.gov/sites/default/files/dc/sites/ddoe/publication/attachments/Ch3.9StormwaterPonds_0.pdf Washington D.C. guidance] for ponds | ||
*[https://fortress.wa.gov/ecy/publications/parts/1210030part6.pdf State of Washington] guidance. See section 4.4. | *[https://fortress.wa.gov/ecy/publications/parts/1210030part6.pdf State of Washington] guidance. See section 4.4. | ||
− | *[ | + | *[https://swbmpvwrrc.wp.prod.es.cloud.vt.edu/wp-content/uploads/2018/07/BMP_Spec_No_14_WET_PONDS.pdf Virginia guidance] for wet ponds. See section 6.8. |
− | *[ | + | *[https://www.seattle.gov/util/cs/groups/public/@spuweb/@policy/documents/webcontent/1_046871.pdf Seattle guidance]. See section E-7, page E-18. |
− | |||
*Minnesota Pollution Control Agency | *Minnesota Pollution Control Agency | ||
− | **[ | + | **[https://www.pca.state.mn.us/sites/default/files/wq-wwtp5-32.pdf HPDE liner guidance] |
− | **[ | + | **[https://www.pca.state.mn.us/sites/default/files/wq-wwtp5-60.pdf PVC liner guidance] |
+ | |||
+ | [[Category:Level 2 - Best management practices/Guidance and information]] | ||
+ | [[Category:Level 2 - Technical and specific topic information/Miscellaneous technical information]] |
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.
This page was last edited on 7 December 2022, at 01:18.