Difference between revisions of "Flow through perforated pipe"
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<math>Q_{max, p}=B\times C_{d}\times A_{o}\sqrt{2\cdot g\cdot \sum d}</math> | <math>Q_{max, p}=B\times C_{d}\times A_{o}\sqrt{2\cdot g\cdot \sum d}</math> | ||
{{Plainlist|1=Where: | {{Plainlist|1=Where:<sub>d</sub>'' is the coefficient of discharge (0.61 for a sharp edged orifice), | ||
*''B'' is the clogging factor (between 0.5 to calculate a for matured installation and 1 to calculate a new perfectly performing BMP), | |||
*'' | *''C<sub>d</sub>'' is the coefficient of discharge (usually 0.61 for the sharp edge created by relatively thin pipe walls), | ||
*'' | *''A<sub>o</sub>'' is the total open area of the perforated pipe (m<sup>2</sup>/m), | ||
*'' | *''g'' is acceleration due to gravity (m/s<sup>2</sup>) | ||
*''Σ d'' 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]]), | ||
}} | }} | ||
Revision as of 02:37, 25 February 2018
Manufacturers of perforated pipe are often able to provide the open area (m2) per meter length.
Where:d is the coefficient of discharge (0.61 for a sharp edged orifice),
- B is the clogging factor (between 0.5 to calculate a for matured installation and 1 to calculate a new perfectly performing BMP),
- Cd is the coefficient of discharge (usually 0.61 for the sharp edge created by relatively thin pipe walls),
- Ao is the total open area of the perforated pipe (m2/m),
- g is acceleration due to gravity (m/s2)
- Σ d is the total depth of bioretention components over the perforated pipe (mm) (e.g. ponding/mulch/filter media/choker layer),