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• Rainwater Harvesting & Cisterns: Life Cycle Costs
  [[File:PEP Design Kempen RWH.PNG|thumb|600px|A common [[Rainwater harvesting]] design configuration for residential use, with its various components sho ...access the updated [https://sustainabletechnologies.ca/lid-lcct/ LID Life Cycle Costing Tool (LCCT) here].
  6 KB (893 words) - 21:33, 17 January 2023
• Rainwater Harvesting Cistern: Life Cycle Costs
  #REDIRECT [[Rainwater Harvesting & Cisterns: Life Cycle Costs]]
  63 bytes (7 words) - 19:40, 21 December 2022

Page text matches

• Rainwater Harvesting Cistern: Life Cycle Costs
  #REDIRECT [[Rainwater Harvesting & Cisterns: Life Cycle Costs]]
  63 bytes (7 words) - 19:40, 21 December 2022
• Rainwater Harvesting & Cisterns: Life Cycle Costs
  [[File:PEP Design Kempen RWH.PNG|thumb|600px|A common [[Rainwater harvesting]] design configuration for residential use, with its various components sho ...access the updated [https://sustainabletechnologies.ca/lid-lcct/ LID Life Cycle Costing Tool (LCCT) here].
  6 KB (893 words) - 21:33, 17 January 2023
• Low Impact Development Life Cycle Costing Tool
  ...ecember of 2021. (TRCA, 2019)<ref> TRCA. 2019. Low Impact Development Life Cycle Costing Tool. Accessed 22 November 2022. https://sustainabletechnologies.ca ...act development (LID) practices can be a complicated process. The LID Life Cycle Costing Tool (LCCT) helps make this process easier and allows users to prod
  8 KB (1,101 words) - 15:11, 1 June 2023
• Cost analysis resources
  ...of low impact development type of best management practices through a life cycle perspective. Journal of Cleaner Production. 213. pp. 1103-1114. https://www ==STEP LID Life Cycle Costing Tool (Ontario)==
  7 KB (940 words) - 14:55, 24 July 2023
• Rain barrels
  ...arger, multi-residential or commercial integrated systems, see [[Rainwater harvesting]] ...up-rain-barrels-harvest-rainwater/ How to set up a Rain Barrel and Harvest Rainwater] page.
  10 KB (1,464 words) - 18:44, 1 March 2023
• Rainwater harvesting
  [[File:STEP Minto Cistern P1 - Copy.jpg|thumb|500px|Rainwater harvesting is commonly employed on zero-lot-line projects like downtown condos. This c This article is about large, building-integrated rainwater harvesting systems featuring underground or indoor cisterns or tanks and intended for
  17 KB (2,464 words) - 15:10, 3 April 2023
• Inspection and Maintenance: Rainwater Harvesting
  ...Rainwater Cisterns. https://sustainabletechnologies.ca/app/uploads/2018/02/Rainwater-Cisterns-Fact-Sheet.pdf</ref>]] [[Rainwater harvesting|Rainwater harvesting/cisterns]] uses storage structures that can be installed either:
  31 KB (4,474 words) - 20:40, 3 October 2022
• Green roofs
  ...efit of all kinds of green roofs is maximized by combined with [[rainwater harvesting]] for subsequent irrigation. Sedum and native species have all been shown t ...ed water retention capacity, many green roofs are coupled with a rainwater harvesting cistern, to capture the excess water. It then becomes desirable to use as m
  24 KB (3,449 words) - 20:27, 2 August 2023
• Inspection and Maintenance: Underground Infiltration Systems
  ...anagement practices that refers to LIDs that capture and temporarily store rainwater and snowmelt from hard surfaces (e.g., roofs and pavements) below ground in ...rom other BMPs (e.g., [[rainwater harvesting|rain barrels]] or [[Rainwater harvesting|cisterns]], [[rain gardens]], [[green roofs]]. Also known as infiltration g
  31 KB (4,425 words) - 21:09, 29 September 2022
• LID opportunities on public land
  * [[Rainwater harvesting]] ...dget forecasts provide opportunities to compare the capital and life-cycle costs and benefits of conventional construction projects against LID retrofits.
  25 KB (3,482 words) - 18:36, 6 August 2020
• Inspection and Maintenance: Green Roofs
  ...ke a lawn, meadow or garden by intercepting and absorbing a portion of the rainwater or snowmelt that falls on it. The typical layers of a green roof (in ascend *'''[[Blue roofs]]''' are systems that temporarily capture rainwater using the roof as storage and allow it to evaporate and/or to be used for n
  37 KB (5,353 words) - 18:37, 4 October 2022
• STEP tools and resources
  ...osion, water quality , temperature, baseflow, flooding, fisheries, aquatic life. ...sociated with each management option, by comparing life cycle costs to the costs mitigated by reducing flood risk.
  10 KB (1,333 words) - 21:27, 24 November 2023
• Inspections and maintenance
  **Rainwater cisterns *Estimated costs over a 50 year BMP life cycle.
  28 KB (3,946 words) - 14:41, 11 March 2024
• LID Case Studies
  ...uded [[Bioretention]], [[Permeable pavements]], [[Swales]] and [[Rainwater harvesting]] and re-use for landscape irrigation. Results from the study period found ...ude [[Bioretention]], linear [[Wetlands]], [[Green roofs]] and [[Rainwater harvesting]], all designed to reduce runoff volumes and pollutant loads to the adjacen
  81 KB (11,704 words) - 20:55, 20 April 2023