Pipe Pressure Drop Calculator
Estimate pressure drop using Hazen-Williams.
About the Pipe Pressure Drop Calculator
Estimates the head loss (pressure drop) in a water pipe using the Hazen-Williams equation from flow, pipe diameter, length and roughness coefficient C.
$$ h_f = 10.67\frac{L Q^{1.852}}{C^{1.852} d^{4.87}} $$
How to use this calculator
- Enter the pipe length, flow rate, Hazen-Williams coefficient, and pipe diameter.
- Make sure your units match the calculator inputs, especially for length, flow, and diameter.
- Click calculate to find the head loss, which is the pressure drop expressed as fluid head.
- Use the result to compare pipe sizes, check system losses, or estimate the pressure available downstream.
The formula explained
The formula computes the head loss, or pressure drop, due to friction in a pipe carrying water, using the Hazen-Williams method. It shows that longer pipes and higher flow rates increase loss, while larger diameters and smoother pipes reduce it.
- \(h_f\) = head loss, or pressure drop, in the pipe
- L = pipe length
- Q = flow rate
- C = Hazen-Williams roughness coefficient
- d = inside pipe diameter
Step by step method
- Write down the values for \(L\), \(Q\), \(C\), and \(d\) using the same unit system the calculator expects.
- Substitute the values into \(h_f = 10.67 \frac{L Q^{1.852}}{C^{1.852} d^{4.87}}\).
- Calculate the numerator and denominator, then divide to get \(h_f\).
- If needed, convert head loss into pressure drop using the fluid and unit system for your problem.
Worked example
Problem. A water line is \(100\) m long, carries \(0.02\) m^3/s, has a Hazen-Williams coefficient of \(130\), and an inside diameter of \(0.10\) m. Estimate the head loss.
- Substitute the values into \(h_f = 10.67 \frac{L Q^{1.852}}{C^{1.852} d^{4.87}}\).
- Compute \(0.02^{1.852}\), \(130^{1.852}\), and \(0.10^{4.87}\), then combine them with \(L = 100\).
- The result is about \(h_f \approx 4.4\) m of head loss.
Answer. \(h_f \approx 4.4\) m
Tips and common mistakes
- A common mistake is mixing units, so keep the calculator inputs consistent with the formula.
- A larger diameter lowers pressure drop a lot because \(d\) is raised to the power \(4.87\).
Frequently asked questions
What is the C-factor?+
Hazen-Williams roughness: PVC ~150, new steel ~120, old iron ~100.
When is Hazen-Williams valid?+
For water at normal temperatures in turbulent flow.
More Engineering Tools
Explore related calculators in this category
ABV Calculator
Calculate alcohol by volume from original and final gravity. Free calculator with instant calculations, the underlying formula, and an easy-to-follow example.
Air Changes Per Hour Calculator
Calculate ACH from airflow and room volume.
Arc Flash Incident Energy Estimator
A simplified arc-flash incident energy estimate.
Floor Area Ratio (FAR) Calculator
Calculate FAR and allowable floor area.
You Might Also Like
Popular tools from other categories
Absolute Value Calculator
Calculate the absolute value of any number. Use this free calculator for fast, accurate answers, complete with the formula and a worked example.
AC to DC Converter Calculator
Convert AC voltage to DC voltage for different rectifier configurations. Free online calculator with instant, step-by-step results.
Acid-Base Titration Calculator
Calculate concentration from titration data. Get quick, accurate results with this free online calculator, including formulas and worked examples.
Amortization Schedule Calculator - Free Online
Free Generate a complete amortization schedule. Step-by-step solutions and formulas included. Free, accurate results with step-by-step explanations.
Can't Find the Right Calculator?
Try our AI Math Solver, type any problem in plain English and get instant step-by-step solutions.