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• Case study for using the MIDS calculator to meet TMDL permit requirements
  *[https://stormwater.pca.state.mn.us/index.php?title=Bioretention Bioretention (i.e., rain gardens)] <gallery caption="MIDS Calculator screen shots for inputs for bioretention without an underdrain (bioinfiltration). Click on an image for enlarged vie
  26 KB (3,924 words) - 16:08, 12 January 2023
• Guidance for calculator to estimate chloride loading to groundwater from infiltration
  ...humb|alt=schematic showing sources of chloride to groundwater|<font size=3>Schematic illustrating sources of chloride loading to groundwater. Sources include le [[File:Types of BMPs.png|300px|thumb|alt=schematic showing three BMP types|<font size=3>Three basic types of stormwater practi
  29 KB (4,501 words) - 15:20, 17 January 2023
• Finding a topic
  ...''. Typing '''''Bioretention*''''' returns every instance of the term '''''bioretention'''''. [[File:BMP category example.png|400px|thumb|alt=schematic of Category usage|<font size=3>Example of use of different levels of catego
  17 KB (2,797 words) - 15:41, 29 August 2023
• Overview of Green Infrastructure and Low Impact Development
  ...frastructure consists of site and neighborhood-specific practices, such as bioretention, trees, green roofs, permeable pavements and cisterns. Regional and local p ...n the water budget between forested and urban watersheds|<font size=3>This schematic illustrates differences in the water budget between forested and urban land
  16 KB (2,382 words) - 14:41, 6 February 2023
• Green Infrastructure benefits of permeable pavement
  ...ss section and basic components of a pervious concrete system|<font size=3>Schematic illustrating typical permeable interlocking concrete pavement cross section ...| Individual bioretention practices are typically microscale, but multiple bioretention practices, when incorporated into a landscape design, provide macroscale be
  19 KB (2,645 words) - 21:23, 16 February 2023
• Calculating credits for bioretention
  ...ntion and detention of stormwater runoff. Because they utilize vegetation, bioretention practices provide additional benefits, including cleaner air, carbon seques ...tention systems with an underdrain are called biofiltration systems, while bioretention systems with no underdrain are called bioinfiltration systems.
  70 KB (10,269 words) - 20:36, 17 November 2022
• Using the treatment train approach to BMP selection
  ...tormwater retrofits."> [https://stormwater.pca.state.mn.us/index.php?title=Bioretention rain gardens]</span>, [[file:Process and particle size.jpg|300px|thumb|alt=schematic of treatment processes and particles size|<font size=3>Processes based on p
  38 KB (5,394 words) - 22:06, 16 February 2023
• Scenario for developing a stormwater treatment train for a site with limited infiltration capacity
  [[file:Limited infiltration site layout.jpg|300px|thumb|alt=schematic showing layout for treatment train scenario|<font size=3>Site layout for a [[file:Limited infiltration site constraints.jpg|300px|thumb|alt=schematic showing site constraints for treatment train scenario|<font size=3>Site con
  38 KB (5,550 words) - 13:29, 12 February 2023
• Decision tools for stormwater infiltration
  ...us/index.php/BMPs_for_stormwater_infiltration Infiltration BMPs] include [[Bioretention|bioinfiltration]], [[Infiltration basin|infiltration basin]], [[Infiltratio ...thumb|300px|alt=schematic used for infiltration basin example|<font size=3>Schematic showing dimensions for an infiltration basin. The average cross-sectional a
  23 KB (3,334 words) - 17:06, 11 January 2023
• Calculating credits for green roofs
  [[File:Typical green roof sections 2.jpg|thumb|300px|alt=schematic showing sections comprising a typical green roof|<font size=3>Typical green ...discharge from a green roof can be routed to any BMP (e.g. [[Bioretention|bioretention]], [[Infiltration basin|infiltration basin]], [[Permeable pavement|permeabl
  19 KB (2,893 words) - 14:22, 26 July 2022
• Scenario for developing a stormwater treatment train for constructed ponds in new development
  ...s schematic shows a New Residential Development Scenario Base|<font size=3>Schematic illustrating the site layout for this example. The site consists of 40 acr ...ater ponds in series approach. The existing site layout can be seen in the schematic to the right. The table below describes the site conditions for this new de
  44 KB (6,330 words) - 13:35, 12 February 2023
• Case studies for stormwater infiltration at contaminated sites
  ...surface. The most common approach is to infiltrate the runoff through a [[Bioretention|bioinfiltration basin]] or similar [https://stormwater.pca.state.mn.us/inde [[File:CVS Pharmacy.png|500px|thumb|alt=schematic for CVS site|<font size=3>Map showing location of CVS site.</font size>]]
  25 KB (3,666 words) - 20:29, 28 December 2022
• Shallow groundwater
  ...ic.jpg|300 px|thumb|alt=schematic illustrating depth to water|<font size=3>Schematic illustrating how depth to water is calculated. Note that a temporary mound *Infiltration trenches, bioretention, and filters - a minimum of 2 per practice. Note that more borings are reco
  12 KB (1,783 words) - 13:13, 15 February 2023
• Overview for infiltration
  ...tices.png|300px|thumb|alt=schematic of infiltration practices|<font size=3>Schematic illustrating A)infiltration trench, B) underground infiltration, C) infiltr *[[Overview for bioretention]]
  23 KB (3,321 words) - 19:29, 11 August 2022
• Design considerations for green stormwater infrastructure best management practices
  ==Bioretention== Maximizing specific green infrastructure (GI) benefits of bioretention practices requires design considerations prior to constructing the practice
  58 KB (8,166 words) - 17:00, 21 December 2022
• Calculating credits for infiltration basin
  ...], and underground infiltration systems. The discussion does not include [[Bioretention|bioinfiltration]] and [[Permeable pavement|permeable pavement]] systems, un ...jpg|thumb|300px|alt=Infiltration Basin Detailed Cross Section|<font size=3>Schematic showing an infiltration basin.</font size>]]
  37 KB (5,249 words) - 16:07, 18 July 2022
• Calculating credits for infiltration
  ...), and underground infiltration systems. The discussion does not include [[Bioretention|bioinfiltration]] and [[Permeable pavement|permeable pavement]] systems, un ...jpg|thumb|300px|alt=Infiltration Basin Detailed Cross Section|<font size=3>Schematic showing an infiltration basin. Note that inflow into the practice has under
  42 KB (5,899 words) - 14:22, 26 July 2022
• BMPs for stormwater infiltration
  *<span title="A bioretention practice in which no underdrain is used. All water entering the bioinfiltra *<span title="Dry swales, sometimes called grass swales, are similar to bioretention cells but are configured as shallow, linear channels. They typically have v
  43 KB (6,049 words) - 17:06, 1 February 2023
• Calculating credits for tree trenches and tree boxes
  ...ndex.php?title=Pretreatment '''Pretreatment''']</span> is REQUIRED for all bioretention facilities, including tree-based systems, to settle particulates before ent ...pollutant reductions from tree trench with an underdrain BMP|<font size=3>Schematic illustrating how pollutant reductions (TSS, dissolved and particulate P) ar
  75 KB (11,201 words) - 18:43, 13 December 2022
• Design criteria for bioretention
  ...ntion and detention of stormwater runoff. Because they utilize vegetation, bioretention practices provide additional benefits, including cleaner air, carbon seques *Bioretention plan-offline: [[File:01 Bioretention Plan-Offline.pdf]]
  64 KB (9,626 words) - 17:17, 29 December 2022

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