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− | ==Suitability==
| + | {{alert|Many of the following pages have been updated and the links below redirect you to the updated page. The old pages can be accessed from the redirect page.|alert-info}} |
− | ===General===
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− | <p>Stormwater infiltration practices capture and temporarily store stormwater before allowing it to infiltrate into the soil. Design variants include; the infiltration basin, the infiltration trench, the dry well and the underground infiltration system. As the stormwater penetrates the underlying soil, chemical, biological and physical processes remove pollutants and delay peak stormwater flows.</p>
| + | Stormwater [[Glossary#I|infiltration]] practices capture and temporarily store stormwater before allowing it to infiltrate into the soil. Design variants include; the infiltration basin, the infiltration trench, the dry well and the underground infiltration system. As the stormwater penetrates the underlying soil, chemical, biological and physical processes remove pollutants and delay peak stormwater flows. |
− | <p>Infiltration practices are applicable to sites with naturally permeable soils and a suitable distance to the seasonally high ground-water table, bedrock or other impermeable layer. They may be used in residential and other urban settings where elevated runoff volumes, pollutant loads, and runoff temperatures are a concern. In applications where the stormwater runoff has a particularly high pollutant load or where the soils have very high infiltration rates, a significant amount of pre-treatment should be provided to protect the ground-water quality. Sources that include potential stormwater should not be introduced to infiltration systems. Sources that include potentialstormwater hotsposts (PSH) should not be introduced to infiltration areas.</p>
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− | ===Function Within Stormwater Treatment Train=== | + | [[file:Infiltration trench Lino Lakes.jpg|thumb|300px|alt=Photo of an infiltration trench in Lino Lakes|<font size=3>Photo of a Infiltration trench in Lino Lakes</font size>]] |
− | <p>Infiltration practices may be located at the end of the treatment train or they can be designed as off-line configurations where the water quality volume is diverted to the infiltration practice. In any case, the practice may be applied as part of a stormwater management system to achieve one or more of the following objectives:</p> | + | |
− | *Reduce stormwater pollutants | + | Infiltration practices are applicable to sites with naturally permeable soils and a suitable distance to the seasonally high [[Glossary#G|groundwater]] table, bedrock or other impermeable layer. They may be used in residential and other urban settings where elevated [[Glossary#R|runoff]] volumes, pollutant loads, and runoff temperatures are a concern. In applications where the stormwater runoff has a particularly high pollutant load or where the soils have very high Infiltration rates, a significant amount of [[Glossary#P|pre-treatment]] should be provided to protect the groundwater quality. Sources that include potential stormwater [[potential stormwater hotspots|hotsposts]] (PSH) should not be introduced to Infiltration areas. |
− | *Increase ground-water recharge | + | |
− | *Decrease runoff peak flow rates | + | <u><font size=3>Infiltration trench articles</font size></u> |
− | *Decrease the volume of stormwater runoff | + | *[[Overview for Infiltration trench]] |
− | *Preserve base flow in streams | + | *[[Types of Infiltration trench]] |
− | *Reduce thermal impacts of runoff. | + | *[[Design criteria for Infiltration trench]] |
− | ===MPCA Permit Applicability===
| + | *[[Construction specifications for Infiltration trench]] |
− | <p>One of the goals of this Manual is to facilitate understanding of and compliance with the MPCA General Stormwater Permit for Construction Activity (MN R100001), commonly called the Construction General Permit (CGP), which includes design and performance standards for permanent stormwater management systems. The permit and related documentation can be found online at http://www.pca.state.mn.us/water/stormwater/stormwater-c.html. These standards must be applied in all projects in which at least one acre of new impervious area is being created, and the permit stipulates certain standards for various categories of stormwater management practices.</p>
| + | *[[Operation and maintenance of Infiltration trench]] |
− | <p>For regulatory purposes, infiltration practices fall under the “Infiltration / Filtration” category described in Part III.C.2 of the permit. If used in combination with other practices, credit for combined stormwater treatment can be given as described in Part III.C.4. Due to the statewide prevalence of the MPCA permit, design guidance in this section is presented with the assumption that the permit does apply. Also, although it is expected that in many cases infiltration will be used in combination with other practices, standards are described for the case in which it is a stand alone practice.</p>
| + | *[[Assessing the performance of infiltration]] |
− | <p>The following terms are thus used in the text to distinguish various levels of stormwater pond design guidance:</p>
| + | *[[Calculating credits for infiltration trench]] |
− | <p>'''REQUIRED:''' Indicates design standards stipulated by the MPCA Permit (or other consistently applicable regulations).</p> | + | *[[Cost-benefit considerations for Infiltration trench ]] |
− | <p>'''HIGHLY RECOMMENDED:''' Indicates design guidance that is extremely beneficial or necessary for proper functioning of the infiltration practice, but is not specifically required by the MPCA permit.</p>
| + | *[[External resources for Infiltration trench ]] |
− | <p>'''RECOMMENDED:''' Indicates design guidance that is helpful for infiltration performance but not critical to the design.</p>
| + | *[[References for infiltration]] |
− | <p>Of course, there are situations, particularly retrofit projects, in which an infiltration facility is constructed without being subject to the conditions of the MPCA permit. While compliance with the permit is not required in these cases, the standards it establishes can provide valuable design guidance to the user. It is also important to note that additional and potentially more stringent design requirements may apply for a particular infiltration facility, depending on where it is situated both jurisdictionally and within the surrounding landscape.</p>
| + | *[[Requirements, recommendations and information for using infiltration basin/underground infiltration BMPs in the MIDS calculator]] |
− | {{alert|There is some concern that underground infiltration systems and dry wells meet the U.S. Environmental Protection Agency (EPA) definition of a Class V injection well. Class V injection wells are defined as any bored, drilled, or driven shaft, or dug hole that is deeper than its widest surface dimension, or an improved sinkhole, or a subsurface fluid distribution system (from U.S. Environmental Protection Agency, When Are Storm Water Discharges Regulated as Class V Wells, June 2003. http://www.epa.gov/safewater/uic/pdfs/fact_class5_stormwater.pdf. Please consult MPCA with questions on the applicability of Class V injection well rules.|alert-caution}}
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− | <p>Of course, there are situations, particularly retrofit projects, in which an infiltration facility is constructed without being subject to the conditions of the MPCA permit. While compliance with the permit is not required in these cases, the standards it establishes can provide valuable design guidance to the user. It is also important to note that additional and potentially more stringent design requirements may apply for a particular infiltration facility, depending on where it is situated both jurisdictionally and within the surrounding landscape.</p>
| + | *<font size=3>[[Fact sheet|'''Fact sheet''']]</font size> |
− | ==Design Variants==
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− | ===Infiltration Basin===
| + | ==Related pages== |
− | <p>An infiltration basin is a natural or constructed impoundment that captures, temporarily stores and infiltrates the design volume of water over several days. In the case of a constructed basin, the impoundment is created by excavation or embankment. Infiltration basins are commonly used for drainage areas of 5 to 50 acres with land slopes that are less than 20 percent. Typical depths range from 2 to 12 feet, including bounce in the basin. An infiltration basin construction detail is located in Appendix D.</p>
| + | *[[Understanding and interpreting soils and soil boring reports for infiltration BMPs]] |
| + | *[[Determining soil infiltration rates]] |
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| + | [[Category:Level 3 - Best management practices/Structural practices/Infiltration (trench/basin)]] |