Difference between revisions of "Retention swales"
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*''L'' = length of swale in m | *''L'' = length of swale in m | ||
*''Q<sub>p</sub>'' = peak flow of the storm to be controlled, in m<sup>3</sup>/s | *''Q<sub>p</sub>'' = peak flow of the storm to be controlled, in m<sup>3</sup>/s | ||
| − | *''m'' = swale side slope ( | + | *''m'' = swale side slope (m/m) |
| − | *''S'' = the longitudinal slope ( | + | *''S'' = the longitudinal slope (m/m) |
| − | *''n'' = Manning's | + | *''n'' = Manning's coefficient (dimensionless) |
*''b'' = bottom width of trapezoidal swale, in m.}} | *''b'' = bottom width of trapezoidal swale, in m.}} | ||
Revision as of 02:01, 31 October 2018
These sizing equations are suggested for use in calculating the capacity of swales which have a larger proportion of surface flow. i.e. grass swales, rather than bioswales.
In many cases the length of swale required will exceed the available space, so that an underground infiltration trench or a dry pond will be a preferred solution.
Triangular channel[edit]
Sizing a triangular channel for complete volume retention:
Trapezoidal channel[edit]
Sizing a trapezoidal channel for complete volume retention:
![{\displaystyle L={\frac {360,000Q_{p}}{\left\{b+2.388\left[{\frac {Q_{p}n}{\left(2{\sqrt {1+m^{2}-m}}\right)S^{\frac {1}{2}}}}\right]^{\frac {3}{8}}{\sqrt {1+m^{2}}}\right\}q}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/2b2cd1fbb226b90d215b2f9ea3e368ccacc64b90)
Where:
- L = length of swale in m
- Qp = peak flow of the storm to be controlled, in m3/s
- m = swale side slope (m/m)
- S = the longitudinal slope (m/m)
- n = Manning's coefficient (dimensionless)
- b = bottom width of trapezoidal swale, in m.