Difference between revisions of "Constrained spaces"

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(Created page with " Space efficient SuDS include green roofs, bioretention, permeable paving, rills, rainwater harvesting, hardscape storage, micro-wetlands, and bioretention ...")
 
 
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There are so many opportunities to get creative in fitting LID practices into tight spaces, or to integrate them onto/into buildings!
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Space efficient BMPs include:
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*[[Green roofs]],
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*[[Stormwater planters]],
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*[[Permeable pavements]],
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*[[Absorbent landscapes]],
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*[[Swales]],
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*[[Rainwater harvesting]],
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*[[Blue roofs]],
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*[[Wetlands|Micro constructed wetlands]]<ref>AECOM, Water. People. Places. A guide for master planning sustainable drainage into developments (2013) https://www.westsussex.gov.uk/media/2270/suds_design_guidance.pdf</ref>,
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*[[Dry ponds]], and
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*[[Soil cells]].
  
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In many cases it may be possible to include infiltrating practices within 'normal' setbacks too<ref>Wilson, S. (2012). “Using SuDS close to buildings.” <https://www.susdrain.org/files/resources/fact_sheets/09_12_fact_sheet_suds_close_to_buildings.pdf> (Mar. 8, 2018).</ref>. This will depend upon the native soil type, the depth of the water table, and the underdrain configuration being designed to prevent mounding of the groundwater. See also [[groundwater#Groundwater mounding|groundwater mounding]].
  
Space efficient SuDS include [[green roofs]], [[bioretention]], [[permeable paving]], rills, [[rainwater harvesting]], hardscape storage, micro-wetlands, and bioretention [[tree pits]].<ref>AECOM, Water. People. Places. A guide for master planning sustainable drainage into developments (2013) https://www.westsussex.gov.uk/media/2270/suds_design_guidance.pdf</ref>
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==Building integrated vegetation==
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Shallowly planted green walls as seen in Asian, European or West Coast climates have some trouble surviving in Ontario. However, planter boxes can be incorporated into the facades and the relatively small catchments of roof decks and balconies can be routed to irrigate them. These can house deciduous [[trees]], [[shrubs]] or [[climbing plants]] to provide shading to the building envelope as well as capturing stormwater.
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Latest revision as of 18:34, 6 August 2020

There are so many opportunities to get creative in fitting LID practices into tight spaces, or to integrate them onto/into buildings! Space efficient BMPs include:

In many cases it may be possible to include infiltrating practices within 'normal' setbacks too[2]. This will depend upon the native soil type, the depth of the water table, and the underdrain configuration being designed to prevent mounding of the groundwater. See also groundwater mounding.

Building integrated vegetation[edit]

Shallowly planted green walls as seen in Asian, European or West Coast climates have some trouble surviving in Ontario. However, planter boxes can be incorporated into the facades and the relatively small catchments of roof decks and balconies can be routed to irrigate them. These can house deciduous trees, shrubs or climbing plants to provide shading to the building envelope as well as capturing stormwater.


  1. AECOM, Water. People. Places. A guide for master planning sustainable drainage into developments (2013) https://www.westsussex.gov.uk/media/2270/suds_design_guidance.pdf
  2. Wilson, S. (2012). “Using SuDS close to buildings.” <https://www.susdrain.org/files/resources/fact_sheets/09_12_fact_sheet_suds_close_to_buildings.pdf> (Mar. 8, 2018).