Pressure Drop Calculation Using Hazen Williams Equation

How can the Hazen Williams equations be used to calculate pressure drop in pipes due to friction?

The Hazen Williams equations can be used to calculate the pressure drop, Pd (psi/ft of pipe) in pipes due to friction. What are the key parameters in the equation?

Consider a steel pipe with a design coefficient of C=120, how can we calculate the pressure drop for different flow rates?

What are the flow rates (Q) given in the data for which we need to calculate the pressure drop?

How can we plot the pressure drop against flow rates for various pipe diameters on a single graph?

What are the pipe diameters (d) mentioned in the data for which we should plot the pressure drop curves?

Answer:

The Hazen Williams equation can be used to calculate pressure drop in pipes due to friction. By substituting the given values, you can calculate the pressure drop for different flow rates and plot the results on a graph.

The Hazen Williams equation can be used to calculate the pressure drop in pipes due to friction. The equation is given as pd = 4.25Q¹.⁸⁵ / C¹.⁸⁵d⁴.⁸⁷, where pd is the pressure drop (psi/ft of pipe), Q is the flow rate (gpm), C is the design coefficient, and d is the pipe diameter (inches).

To calculate the pressure drop in a 1000ft long steel pipe with a design coefficient of C=120, we can substitute the values into the equation for different flow rates Q=250, 300, 350, 400, and 450 gpm. The pressure drop values can then be plotted against the flow rates for various pipe diameters (d=2.0, 2.5, 3.0, and 3.5 inches) on a single graph.

This graph will show how the pressure drop varies with flow rates for different pipe diameters, providing important insights into the system's performance under different conditions. It allows engineers to optimize the pipe design and operation to minimize pressure drop and improve efficiency. By visualizing the data on a graph, trends and correlations can be easily identified, helping in the decision-making process.

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