Changes

<math>d_{p}'=d_{p, max}</math>

<math>d_{p}'=d_{p, max}</math>

==Determine the required surface area of the practice==

==Determine the required surface area of the practice==

* Step 4: Calculate the surface (i.e footprint) area of the practice (A_p) needed to capture the runoff volume produced from the catchment during the design storm event:<br>

* Step 4: Calculate the surface (i.e footprint) area of the practice (A_p) needed to capture the runoff volume produced from the catchment during the design storm event<br>

For practices where flow is delivered to the filter media bed:

For practices where flow is delivered to the filter media bed:

<math>A_{p}=i\times D\times A_{i}/[(d_{p}' + (f_{m, min} \times D)]</math>

<math>A_{p}=i\times D\times A_{i}/[(d_{p}' + (f_{m, min} \times D)]</math>

{{Plainlist|1=Where:

{{Plainlist|1=Where:

*i = Design storm intensity (mm/h)

*i = Design storm intensity (m/h)

*D = Design storm duration (h)

*D = Design storm duration (h)

*A_i = Catchment impervious area (m²)

*A_i = Catchment impervious area (m²)

*d_p' = Design surface ponding depth (m)

*d_p' = Design surface ponding depth (m)

*f_{m, min} = minimum infiltration rate of the filter media (mm/h), see [[Bioretention: Filter media|Filter media]] for guidance}}

*f_{m, min} = minimum infiltration rate of the filter media (m/h), see [[Bioretention: Filter media|Filter media]] for guidance}}<br>

==Determine the active storage depth of the practice==

==Determine the active storage depth of the practice==