Chézy formula

In fluid dynamics, the Chézy formula describes the mean flow velocity of steady, turbulent open channel flow:

v=C{\sqrt {R\,i}},\,

where

$v$ is average velocity [m/s],
$C$ is Chezy's coefficient [m^½/s],
$R$ is the hydraulic radius (~ water depth) [m], and
$i$ is the bottom slope [m/m].

The formula is named after Antoine de Chézy, the French hydraulics engineer who devised it in 1775.

Usage with Manning coefficient

This formula can also be used with Manning's Roughness Coefficient, instead of Chézy's coefficient. Manning derived^[1] the following relation to C based upon experiments:

C={\frac {1}{n}}R^{1/6}

where

$C$ is the Chézy coefficient [m^½/s],
$R$ is the hydraulic radius (~ water depth) [m], and
$n$ is Manning's roughness coefficient.

Unlike the Manning equation, which is empirical, the Chézy equation is derived from hydrodynamics theory.^[2]

References

↑ Manning, R., "On the flow of Water in Open Channels and Pipes." Transactions Institute of Civil Engineers of Ireland, vol. 20, pp 161-209, Dublin, 1891, Supplement, vol 24, pp. 179-207, 1895
↑ Martin & McCutcheon, 1999, Hydrodynamics and Transport, Lewis

External links

History of the Chézy Formula

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.

[1] Manning, R., "On the flow of Water in Open Channels and Pipes." Transactions Institute of Civil Engineers of Ireland, vol. 20, pp 161-209, Dublin, 1891, Supplement, vol 24, pp. 179-207, 1895

[2] Martin & McCutcheon, 1999, Hydrodynamics and Transport, Lewis

Chézy formula

Usage with Manning coefficient

See also

References

External links