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The maximum flow rate through a bed of filer media (''Q<sub>max</sub>'') may be calculated:
 
The maximum flow rate through a bed of filer media (''Q<sub>max</sub>'') may be calculated:
<math>Q_{max}=K_{m}\times A_{p}\times \left (\frac{d_{p}+d_{m}}{d_{m}}  \right )\times 3.6 \times 10^{-3}</math>
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<math>Q_{max}=K_{m}\times A_{p}\times \left (\frac{\sum d}{d_{m}}  \right )\times 3.6 \times 10^{-3}</math>
 
{{Plainlist|1=Where:
 
{{Plainlist|1=Where:
 
*''K<sub>m</sub>'' is the hydraulic conductivity of the filter media (mm/hr),  
 
*''K<sub>m</sub>'' is the hydraulic conductivity of the filter media (mm/hr),  
 
*''A<sub>p</sub>'' is the area of the practice (m<sup>2</sup>),  
 
*''A<sub>p</sub>'' is the area of the practice (m<sup>2</sup>),  
*''Σ d<sub>z</sub>'' is the total depth of bioretention components over the perforated pipe (mm) (e.g. ponding/[[mulch]]/[[filter media]]/[[choker layer]]),  
+
*''Σ d'' is the total depth of bioretention components over the perforated pipe (mm) (e.g. ponding/[[mulch]]/[[filter media]]/[[choker layer]]),  
 
*''d<sub>m</sub>'' is the depth of the filter media (mm), and  
 
*''d<sub>m</sub>'' is the depth of the filter media (mm), and  
 
}}
 
}}
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