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<p>''Natural or constructed depressions located in permeable soils that capture, store and infiltrate the volume of stormwater runoff associated with a particular design event.''</p> | <p>''Natural or constructed depressions located in permeable soils that capture, store and infiltrate the volume of stormwater runoff associated with a particular design event.''</p> | ||
− | [[file:Infiltration trench Lino Lakes.jpg|thumb|300px|alt=Photo of | + | [[file:Infiltration trench Lino Lakes.jpg|thumb|300px|alt=Photo of an infiltration trench in Lino Lakes|Photo of a Infiltration trench in Lino Lakes]] |
[[file:Underground storage and infiltration - Stillwater.jpg|thumb|300px|alt=Photo of a Infiltration trench in Stillwater|Photo of a Infiltration trench in Stillwater]] | [[file:Underground storage and infiltration - Stillwater.jpg|thumb|300px|alt=Photo of a Infiltration trench in Stillwater|Photo of a Infiltration trench in Stillwater]] | ||
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===Description=== | ===Description=== | ||
<p>In general terms, [[Glossary#I|infiltration]] systems can be described as natural or constructed depressions located in permeable soils that capture, store and infiltrate stormwater runoff within 48 hours. These depressions can be located at the surface of the ground (e.g. infiltration basin) or they can be designed as underground facilities (e.g. structural chamber or excavated pit filled with aggregate such as an infiltration trench). Typically, infiltration systems are designed with one or more [[Glossary#P|pre-treatment]] facilities or they are designed as off-line facilities.</p> | <p>In general terms, [[Glossary#I|infiltration]] systems can be described as natural or constructed depressions located in permeable soils that capture, store and infiltrate stormwater runoff within 48 hours. These depressions can be located at the surface of the ground (e.g. infiltration basin) or they can be designed as underground facilities (e.g. structural chamber or excavated pit filled with aggregate such as an infiltration trench). Typically, infiltration systems are designed with one or more [[Glossary#P|pre-treatment]] facilities or they are designed as off-line facilities.</p> | ||
− | {{alert|[[glossary#I|Infiltration]] systems should be located in permeable soils and a minimum 3-foot distance is ''REQUIRED'' from the bottom of the seasonally high water table, bedrock or other impeding layer per the [http://www.pca.state.mn.us/index.php/water/water-types-and-programs/stormwater/construction-stormwater/index.html Minnesota Pollution Control Agency Construction General Permit (CGP)]]|alert-danger}} | + | {{alert|[[glossary#I|Infiltration]] systems should be located in permeable soils and a minimum 3-foot distance is ''REQUIRED'' from the bottom of the infiltration system to the seasonally high water table, bedrock or other impeding layer per the [http://www.pca.state.mn.us/index.php/water/water-types-and-programs/stormwater/construction-stormwater/index.html Minnesota Pollution Control Agency Construction General Permit (CGP)]]|alert-danger}} |
<p>Dry wells and Trenches should be designed to handle the smaller, more frequent rainfall events. Stormwater associated with the larger rainfall events should bypass these practices by a separate pipe or an overflow device. Infiltration basins and underground infiltration systems should be designed to handle both the [[Glossary#W|water quality volume]] and as the water quantity volume.</p> | <p>Dry wells and Trenches should be designed to handle the smaller, more frequent rainfall events. Stormwater associated with the larger rainfall events should bypass these practices by a separate pipe or an overflow device. Infiltration basins and underground infiltration systems should be designed to handle both the [[Glossary#W|water quality volume]] and as the water quantity volume.</p> | ||
<p>Infiltration systems can be designed to address a number of stormwater management issues including: water quality, stormwater [[Glossary#G|runoff]] reduction, flow attenuation, [[Glossary#T|thermal impacts]] to cold water fisheries, and [[Glossary#G|groundwater]] [[Glossary#R|recharge]].</p> | <p>Infiltration systems can be designed to address a number of stormwater management issues including: water quality, stormwater [[Glossary#G|runoff]] reduction, flow attenuation, [[Glossary#T|thermal impacts]] to cold water fisheries, and [[Glossary#G|groundwater]] [[Glossary#R|recharge]].</p> | ||
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===Maintenance Requirements=== | ===Maintenance Requirements=== | ||
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*Toxins - Hydrocarbon = 100 percent | *Toxins - Hydrocarbon = 100 percent | ||
<p>Pollution removal addresses only the impact on surface water, as there could be some transfer of pollution to the soil layer and [[Glossary#G|groundwater]].</p> | <p>Pollution removal addresses only the impact on surface water, as there could be some transfer of pollution to the soil layer and [[Glossary#G|groundwater]].</p> | ||
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+ | [[Category:Level 3 - Best management practices/Structural practices/Infiltration (trench/basin)]] |
Natural or constructed depressions located in permeable soils that capture, store and infiltrate the volume of stormwater runoff associated with a particular design event.
In general terms, infiltration systems can be described as natural or constructed depressions located in permeable soils that capture, store and infiltrate stormwater runoff within 48 hours. These depressions can be located at the surface of the ground (e.g. infiltration basin) or they can be designed as underground facilities (e.g. structural chamber or excavated pit filled with aggregate such as an infiltration trench). Typically, infiltration systems are designed with one or more pre-treatment facilities or they are designed as off-line facilities.
Dry wells and Trenches should be designed to handle the smaller, more frequent rainfall events. Stormwater associated with the larger rainfall events should bypass these practices by a separate pipe or an overflow device. Infiltration basins and underground infiltration systems should be designed to handle both the water quality volume and as the water quantity volume.
Infiltration systems can be designed to address a number of stormwater management issues including: water quality, stormwater runoff reduction, flow attenuation, thermal impacts to cold water fisheries, and groundwater recharge.
Pollution removal addresses only the impact on surface water, as there could be some transfer of pollution to the soil layer and groundwater.
This page was last edited on 3 December 2022, at 22:31.