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| *A<sub>i</sub> = Catchment impervious area (m<sup>2</sup>) | | *A<sub>i</sub> = Catchment impervious area (m<sup>2</sup>) |
| *d<sub>p</sub>' = Design surface ponding depth (m) | | *d<sub>p</sub>' = Design surface ponding depth (m) |
| *f<sub>f, min</sub> = minimum infiltration rate (i.e. saturated hydraulic conductivity) of the filter media (m/h), see [[Bioretention: Filter media|Filter media]] for guidance}}<br> | | *f<sub>f, min</sub> = minimum acceptable infiltration rate (i.e. saturated hydraulic conductivity) of the filter media (m/h), see [[Bioretention: Filter media|Filter media]] for guidance}}<br> |
| For practices where flow is delivered directly to the storage reservoir: | | For practices where flow is delivered directly to the storage reservoir: |
| <math>A_{p}=i\times D\times A_{i}/[d_{i} + (f' \times D)]</math> | | <math>A_{p}=i\times D\times A_{i}/[d_{i} + (f' \times D)]</math> |
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| * Step 7: Calculate catchment impervious area to practice permeable (footprint) area ratio, R, also referred to as I/P ratio: | | * Step 7: Calculate catchment impervious area to practice permeable (footprint) area ratio, R, also referred to as I/P ratio: |
| <math>R=A_{i}/A_{p}</math><br> | | <math>R=A_{i}/A_{p}</math><br> |
| Adjust A<sub>p</sub> or A<sub>i</sub> to keep R between 5 and 20. | | Adjust *d<sub>p</sub>', d<sub>i</sub>, A<sub>p</sub> or A<sub>i</sub> to keep R between 5 and 20. |
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| ==Determine the required surface area of the storage reservoir== | | ==Determine the required surface area of the storage reservoir== |