...
The time it takes to drain the sed tank can be approximated by:
| Latex |
|---|
| Wiki Markup |
{latex} \large $$ desiredT = {{16W_{SedBay} \^{1.5} \tan (AN_{SedPlate} )^{0.5} L_{Sed} } \over {3\pi D_{Valve} \^2 \sqrt {2g} }} + {{\sqrt {HW_{Sed} } - \sqrt {{{W_{SedBay} } \over 2}\tan (AN_{SedPlate} )} } \over {{{\pi D_{Valve} \^2 } \over {8L_{Sed} W_{SedBay} }}\sqrt {{{2g} \over {Pi_{VenaContractaOrifice} }}} }} $$ {latex} |
where WSedBay is the width of a single sedimentation bay, ANSedPlate is the angle of the bottom slopes from the horizontal, LSed is the length of the sedimentation tank, DValve is the diameter of the drain valve, HWSed is the water height in the sedimentation tank, and KGateValve + KExp is the total head loss through the valve.
...