Engineering Calculators for Pipe Flow & Fluid Mechanics
Every calculator on this page is free, works instantly in your browser, and is designed to be used alongside the Moody Chart Calculator. Whether you're sizing a pump, checking if flow is turbulent, or calculating pressure drop - you'll find it here.
Friction Factor & Flow Regime
Moody Chart Calculator
Find the Darcy friction factor for any pipe flow using the Colebrook-White equation. Includes an interactive Moody diagram.
Main ToolReynolds Number Calculator
Determine whether flow is laminar, transitional, or turbulent. Essential first step before using the Moody Chart.
Swamee-Jain Calculator
Get friction factor instantly using the explicit Swamee-Jain approximation. Compare results against the Colebrook-White equation.
Laminar Flow Friction Factor Calculator
For laminar flow (Re < 2300), friction factor is simply 64/Re. Calculate it here instantly.
Pressure, Head Loss & Flow
Pressure Drop Calculator
Calculate pressure loss in a pipe using the Darcy-Weisbach equation. Enter friction factor, pipe dimensions, and fluid properties.
Head Loss Calculator
Compute friction head loss in meters of fluid. Use this to size pipes and pumps in water supply and HVAC systems.
Pipe Flow Velocity Calculator
Find fluid velocity from flow rate and pipe diameter. The starting point for Reynolds number and pressure drop calculations.
Volumetric Flow Rate Calculator
Convert between velocity and flow rate for a given pipe diameter. Results in m³/s, L/s, and m³/h.
Pipe Properties & Fluid Properties
Pipe Roughness Calculator
Look up absolute roughness for common pipe materials (steel, cast iron, PVC, copper) and calculate relative roughness ε/D.
Relative Roughness Calculator
Calculate ε/D from pipe roughness height and diameter. This is the input you need for the Moody Chart and Colebrook equation.
Kinematic Viscosity Calculator
Convert dynamic viscosity and density to kinematic viscosity (ν = μ/ρ). Required for Reynolds number calculations.
Pump Power Calculator
Estimate the power needed to drive a pump given flow rate, head, fluid density, and efficiency. Results in W, kW, and hp.
Not Sure Where to Start?
If you're new to pipe flow analysis, here's the typical workflow an engineer follows:
- Find fluid velocity - use the Pipe Flow Velocity Calculator if you know the flow rate and pipe diameter.
- Calculate Reynolds number - use the Reynolds Number Calculator to find Re and determine the flow regime.
- Get relative roughness - use the Pipe Roughness Calculator to find ε/D for your pipe material.
- Find friction factor - enter Re and ε/D into the Moody Chart Calculator to get the Darcy friction factor.
- Calculate pressure drop or head loss - use the Pressure Drop Calculator or Head Loss Calculator.
- Size your pump - use the Pump Power Calculator to find the required motor power.
Learn More: Guides & Articles
How to Read the Moody Chart
A visual, step-by-step guide to finding friction factor directly from the chart.
Reynolds Number Explained
What it means, how to calculate it, and why it matters for pipe flow.
Pipe Roughness: A Practical Guide
Roughness values for every common pipe material and how aging affects them.
Darcy-Weisbach vs Hazen-Williams
Which pressure drop method should you use and when?