...natural or constructed impoundment that captures, temporarily stores and [[Glossary#I|infiltrates]] the design volume of water over several days. In the case o
...Level 3 - Best management practices/Guidance and information/BMP types and terminology]]
876 bytes (121 words) - 22:41, 23 November 2022
...tem. Green roofs create green space for public benefit, energy efficiency, and stormwater retention/ detention.|alert-success}}
...uch weight the roof can hold, is a major factor in determining roof design and construction. Green roofs are therefore typically defined as being either e
3 KB (401 words) - 22:44, 23 November 2022
...ly having individual sections for infiltration trench, infiltration basin, and bioretention-bioinfiltration|alert-info}}
...natural or constructed impoundment that captures, temporarily stores and [[Glossary#I|infiltrates]] the design volume of water over several days. In the case o
4 KB (520 words) - 22:40, 23 November 2022
...Bergerson Photography, Courtesy of The Kestrel Design Group, Inc., INSPEC, and Leo A Daly.</font size>]]
...tem. Green roofs create green space for public benefit, energy efficiency, and stormwater retention/ detention.|alert-success}}
3 KB (456 words) - 22:41, 3 December 2022
==Glossary==
*Dead load: All permanently placed materials on and below the roof (e ,g. green roof materials, green roof plants, ceiling fans
8 KB (1,178 words) - 14:41, 17 January 2023
...gn that provides opportunity for runoff infiltration, filtration, storage, and water uptake by vegetation.
...en the curb and sidewalk). Bioretention, when designed with an under-drain and liner, is also a good design option for treating [[Potential stormwater hot
2 KB (271 words) - 20:00, 1 December 2022
...tem. Green roofs create green space for public benefit, energy efficiency, and stormwater retention/ detention.|alert-success}}
*[[Operation and maintenance of green roofs]]
3 KB (398 words) - 21:40, 7 February 2023
*[[File:green roof design and construction.docx]] - technical document provided by Kestrel Design Group t
*[[File:green roof glossary.docx]] - technical document provided by Kestrel Design Group to MPCA (may b
3 KB (397 words) - 23:13, 23 November 2022
As filtration becomes a more common tool in stormwater management, and as the number of design variants increases, so does the number of names for
*Dry [[Glossary#S|swales]] are also referred to as grassed or vegetated swales.
10 KB (1,601 words) - 22:37, 23 November 2022
...filter systems are appropriate for Minnesota, depending upon project scale and site conditions.
...filtered runoff may be allowed to infiltrate. See [[Computer-aided design and drafting (CAD/CADD) drawings]] for design drawing.
9 KB (1,374 words) - 18:59, 31 January 2023
As filtration becomes a more common tool in stormwater management, and as the number of design variants increases, so does the number of names for
*Dry [[Glossary#S|swales]] are also referred to as grassed or vegetated swales.
10 KB (1,641 words) - 22:49, 23 November 2022
...tem. Green roofs create green space for public benefit, energy efficiency, and stormwater retention/ detention.|alert-success}}
...e roofing consultant, green roof designer, irrigation designer, electrical and mechanical engineers as well any others involved in the green roof project.
3 KB (405 words) - 21:38, 7 February 2023
For a [[Bioretention terminology|bioinfiltration]] (aka bioretention with no underdrain) BMP, all stormwater
NOTE: A bioretention basin with no underdrain is a type of [[Bioretention terminology|bioinfiltration]] device, since all of the water captured by the BMP that d
23 KB (3,549 words) - 18:50, 23 November 2022
...tem. Green roofs create green space for public benefit, energy efficiency, and stormwater retention/ detention.|alert-success}}
* maximum percent cover and patch size of weed species (if any);
4 KB (505 words) - 21:39, 7 February 2023
...tem. Green roofs create green space for public benefit, energy efficiency, and stormwater retention/ detention.|alert-success}}
...tem. Green roofs create green space for public benefit, energy efficiency, and stormwater retention/ detention.
6 KB (867 words) - 22:40, 3 December 2022
...ign Standards (MIDS) calculator for bioretention BMPs. Links to MIDS pages and the MIDS calculator are included at the bottom of this page.
...responds with a bioretention system with no underdrain. See [[Bioretention terminology]]|alert-info}}
23 KB (3,556 words) - 13:18, 29 January 2023
...including cleaner air, carbon sequestration, improved biological habitat, and aesthetic value.|alert-success}}
...mn.us/water/plants-stormwater-design Plants for stormwater design] by Shaw and Schmidt (2003).
5 KB (610 words) - 21:04, 22 December 2022
...eated for Version 3 of the calculator (See [[Requirements, recommendations and information for using underground infiltration BMPs in the MIDS calculator]
...the watershed tab for the MIDS calculator. The user must input a zip code and impervious acres. Other entries are optional.</font size>]]
22 KB (3,347 words) - 13:33, 29 January 2023
...construction-stormwater/index.html MPCA Construction General Permit (CGP)] and local stormwater management requirements, if chosen by the local community.
...be adapted to provide greater protection for special and other sensitive [[Glossary#W|waters of the state]]. The goal of the unified framework is to develop a
10 KB (1,552 words) - 19:14, 6 December 2022
...you use the information from the new page, which is called [[Bioretention terminology]]|alert-info}}
...the ongoing evolution of bioretention terminology, the terms “rain garden” and “rainwater garden” are used interchangeably with bioretention. In most
22 KB (3,288 words) - 18:52, 15 August 2022