R = Hydraulic radius, ft (R = cross-sectional area/wetted perimeter). C = Hazen Williams coefficient, dependent on the pipe material and pipe age.The traditional form of the Hazen Williams formula is: It can be written in terms of water velocity or water flow rate, in terms of pressure drop or head loss, and for several different sets of units. There are several different forms of the Hazen Williams Formula in use for water flow rate calculations. Click on the following link for more details about the Darcy Weisbach Equation.įollowing presentation and discussion of several forms of the Hazen Williams equation in the next couple of sections, a downloadable Excel spreadsheet template will be presented and discussed for making Hazen Williams water flow rate calculations, using Excel formulas. For fluids with viscosity different from water, or for water temperatures far above or below 60oF, the Darcy Weisbach Equation works better than the Hazen Williams Formula. For a review of this topic see the article, ‘ Reynolds Number and Laminar & Turbulent Flow.’ Strictly speaking, the Hazen Williams formula applies to water at 60oF, but it works quite well for a reasonable range of water temperatures above or below 60oF. Most practical applications of water transport in pipes are in the turbulent flow regime. The turbulent flow requirement is not very limiting. The Hazen Williams formula is an empirical equation that can be used for turbulent flow of water at typical ambient temperatures. Water Flow Rates for Pipe Sizes with Excel Formulas, Using the Hazen Williams Formula
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