Colebrook-White Equation

[1] The governing equation used to calculate the expected friction loss factor (f) used in the Darcy-Weisbach Equation. The equation is a function of pipe surface roughness, pipe diameter, fluid viscosity and fluid velocity.

[2] The loss of energy head, $\Delta h_F$ , due to wall friction in a length of pipe between points 1 and 2 in a system is given by:

 $\Delta h_F = i_FL_p$

The frictional head loss gradient, $i_F$ , can be determined from the Colebrook-White equation, which for pipes flowing 100% full of water may be written in the form;

 $i_F = ( \frac{u^2}{8gd_1} ) { \Big\{ {log_{10}} [ \frac{k_p}{371d_1} + \frac{1.775v} {\sqrt{gi_F d_i}^3} ]}^{-2}$

NOTE: An iterative method of solution is required to find the head loss gradient,  $i_F$ , from equation because this quantity also appears on the right-hand side of the equation.

Colebrook-White Equation

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