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• Guidance and examples for using the MPCA Estimator
  ....pca.state.mn.us/index.php?title=Bioretention '''biofiltration''']</span> (bioretention with an underdrain), <span title="Infiltration Best Management Practices (B ....pca.state.mn.us/index.php?title=Bioretention '''biofiltration''']</span> (bioretention with underdrain)
  98 KB (15,156 words) - 16:40, 5 January 2023
• Planning green stormwater infrastructure projects and practices
  **[[Green Infrastructure benefits of bioretention]] ...w impact development (LID)'''</span> practices at the watershed scale: (a) bioretention system, (b) green roof, (c) rain garden, (d) permeable pavements, (e) a bio
  66 KB (9,074 words) - 22:00, 21 February 2023
• Case studies for tree trenches and tree boxes
  [[File:Central corridor cross section B.jpg|left|thumb|300px|alt=schematic cross-section of Central Corridor Light Rail tree system|<font size=3>Cross ...ng a bioretention system under paved surfaces. Using structural cells with bioretention soil, stormwater becomes an asset as a way to water the trees. The trees i
  26 KB (3,860 words) - 16:10, 9 February 2023
• Green Stormwater Infrastructure design strategies and practices for climate resilience
  Infiltration based GSI such as bioretention can reduce the impact of localized inland flooding by providing storage and [[File:Water transport through soil.png|300px|thumb|alt=Schematic water transport through soil|<font size=3>Water transport through normal so
  66 KB (9,146 words) - 16:40, 3 April 2024
• Aaron test
  Infiltration based GSI such as bioretention can reduce the impact of localized inland flooding by providing storage and [[File:Water transport through soil.png|300px|thumb|alt=Schematic water transport through soil|<font size=3>Water transport through normal so
  66 KB (9,188 words) - 16:22, 7 May 2024
• Operation and maintenance (O&M) of green roofs
  ...mb|300px|alt=illustration showing typical green roof sections|<font size=3>Schematic showing the different components of a green roof. Thicknesses of some layer ...), and organic matter utilized in stormwater practices, most frequently in bioretention practices. The media is typically designed to have a rapid infiltration rat
  25 KB (3,627 words) - 13:45, 30 December 2022
• Calculating credits for wet swale (wetland channel)
  ...storm sewer system."> [https://stormwater.pca.state.mn.us/index.php?title=Bioretention '''biofiltration''']</span> or linear <span title="Stormwater wetlands are ...f the practice times the average area of the practice. For some bmps (e.g. bioretention, infiltration trenches and basins, swales with check dams), the volume is t
  36 KB (5,160 words) - 22:22, 23 November 2022
• Calculating credits for stormwater ponds
  ...age.jpg|thumb|300px|alt=schematic of constructed pond/wetland|<font size=3>Schematic showing characteristics of a constructed pond or constructed wetland.</font ...on enhanced sand filter bench|<font size=3>Iron-enhanced sand filter bench schematic.</font size>]]
  59 KB (8,449 words) - 18:13, 1 August 2022
• Better site design
  [[File:Better site design principles.jpg|thumb|400px|alt=schematic showing better site design priciples|<font size=3>Better site design, along ...inimize stormwater runoff and mitigate stormwater runoff|<font size=3>This schematic illustrates better site design practices to minimize stormwater runoff and
  71 KB (10,558 words) - 11:52, 2 February 2023
• Design, construction, operation and maintenance specifications for pretreatment vegetated filter strips
  ...filter strips reduce the sediment burden on full treatment practices (e.g. bioretention, constructed pond, etc.), thus improving the effectiveness and lifespan of ...ematic 2.png|300px|thumb|alt=filter strip schematic|<font size=3>Plan view schematic for a pretreatment vegetated filter strip, indicating that slope should be
  34 KB (4,831 words) - 14:19, 6 February 2023
• Operation and maintenance considerations for vegetation in stormwater management
  ...mb|alt=Schematic illustrating the adaptive management process|<font size=3>Schematic illustrating the adaptive management process. Source:[https://www.pca.state ...2.jpg|thumb|400 px|alt=schematic of drawdown and bounce|<font size=3>This schematic defines and demonstrates the concept of bounce and drawdown within an infil
  66 KB (9,956 words) - 14:52, 7 February 2023
• Design, construction, operation and maintenance specifications for vegetated filter strips
  ...filter strips reduce the sediment burden on full treatment practices (e.g. bioretention, constructed pond, etc.), thus improving the effectiveness and lifespan of ...ematic 2.png|300px|thumb|alt=filter strip schematic|<font size=3>Plan view schematic for a pretreatment vegetated filter strip, indicating that slope should be
  36 KB (5,202 words) - 14:24, 6 February 2023
• Screening assessment for contamination at potential stormwater infiltration sites
  ...ite 2.png|300px|left|thumb|alt=schematic of contaminated site|<font size=3>Schematic for site where infiltration is not feasible. Note impermeable liner and dis ...ted site 3.jpg|300px|thumb|alt=schematic of contaminated soil|<font size=3>Schematic for site where infiltration is feasible. Note that contaminated soils are o
  57 KB (8,588 words) - 22:33, 16 February 2023
• Design criteria for Infiltration basin
  ...alt=Schematic of Effective infiltration area for side slopes less than 1-3|Schematic showing the effective infiltration area for side slopes less than 1V:3H.]] {{:Recommended number of soil boring, pits, and permeameter tests for bioretention design}}
  40 KB (5,955 words) - 18:11, 29 December 2022
• Overview for stormwater and rainwater harvest and use/reuse
  ...System Schematic|<font size=3>Example Stormwater Harvesting and Use System Schematic</font size>]] ...ally has four components (See Example Stormwater Harvesting and Use System Schematic at right):
  37 KB (5,490 words) - 12:41, 14 February 2023
• Design criteria for filtration
  ...erdrain at bottom.png|300px|thumb|alt=image showing BMP terms|<font size=3>Schematic illustrating some of the terms and dimensions used in the Stormwater Manual ..., which is the velocity that causes incipient motion of mulch. For grassed bioretention cells, flow velocity through the pre-treatment device should not exceed 3 f
  42 KB (6,383 words) - 18:54, 29 December 2022
• Assessing soil health and function
  {{:Recommended number of soil boring, pits, and permeameter tests for bioretention design}} ...px|thumb|alt=schematic illustrating salt accumulation in soil|<font size=3>Schematic illustrating salt accumulation in soil. Image source: [https://oxfordre.com
  48 KB (6,932 words) - 01:26, 1 December 2022
• Spent lime, calcium water treatment residuals and application in stormwater
  ...lime, added to engineered media in stormwater treatment practices such as bioretention, or used in engineered materials such as <span title="a subsurface emplacem ...cussion includes multiple applications in engineered media, such as use in bioretention media and permeable reactive barriers.
  62 KB (8,932 words) - 21:08, 21 February 2023
• Design criteria for high-gradient stormwater step-pool swale
  ...step pool.png|300px|thumb|alt=schematic filtration step pool|<font size=3>Schematic of a filtration step pool (underdrain present). Click on image to enlarge.< ...tep pool.png|300px|thumb|alt=schematic infiltration step pool|<font size=3>Schematic of infiltration step pool (no underdrain). Click on image to enlarge.</font
  65 KB (10,011 words) - 17:11, 29 December 2022
• Channel protection criteria (Vcp)
  ...ion basins are empty 48 hours after the storm (e.g., infiltration basin or bioretention in the pond floor). ...nnel cross section schematic|<font size=3>Downstream channel cross section schematic.</font size>]]
  41 KB (6,386 words) - 19:17, 6 December 2022

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