Difference between revisions of "Bioretention: Sizing and modeling"

From LID SWM Planning and Design Guide
Jump to navigation Jump to search
Line 10: Line 10:
 
<li>Calculate the required area</li>
 
<li>Calculate the required area</li>
 
</ol>
 
</ol>
<ThirdLeft>
 
<panelWarning>
 
 
<strong>[[Media:Infiltration Sizing.xlsx|Download .xlsx calculation tool]]</strong>
 
<strong>[[Media:Infiltration Sizing.xlsx|Download .xlsx calculation tool]]</strong>
</panelWarning>
 
</ThirdLeft><TwoThirdRight></TwoThirdRight><clearFix></clearFix>
 
<clearFix></clearFix>
 
 
<btnPrimary>http://mediawiki.trca.info/images/8/86/Infiltration_Sizing.xlsx|text</btnPrimary>
 

Revision as of 17:11, 10 July 2017

  1. Gather input data:
    • The applicable infiltration coefficient (q) is calculated by applying the safety factor to the measured infiltration rate.
    • Determine the drainage catchment area (AD), and outline the location of the bioretention facility. To begin with, budget for at least 10% of the contributing impervious area to be required for the BMP.
    • Unless the biomedia fill material has been tested and certified otherwise, a porosity value (Vr) of 0.4 may be assumed (i.e. void ratio 40%).
    • Bioretention facilities are usually between 0.5 m and 1.25 m deep, owing to construction considerations. Determine the maximum available depth (cc max) from the site constraints. The Infiltration page lists these.
    • Identify the duration (D) and intensity (i) of design storm(s).
  2. Calculate the required area

Download .xlsx calculation tool