What is the best free pressure drop calculator?

AutoEngCalc's Pressure Loss Calculator supports Darcy-Weisbach, Hazen-Williams, and minor losses with automatic unit conversion – trusted by over 15,000 engineers monthly.

How to size a centrifugal pump online?

Use our Pump Sizing Calculator – input flow rate, head, fluid properties and get required power, NPSH, efficiency and recommended impeller size instantly.

Which equation is used for gas pipeline sizing?

We use AGA, Weymouth, Panhandle A/B and General Flow equations with compressibility factor (Z) correction for accurate natural gas pipeline sizing.

Are these fluid dynamics calculators really free?

Yes! All 16 fluid dynamics calculators are 100% free forever. No login, no limits, no ads.

Fluid Dynamics Calculators

16 specialized tools for fluid systems analysis and design. Fast, accurate, and reliable calculations for professionals and students.

Pressure Drop: 100 × √(1.0 / 50)

14.14 kPa

16 Fluid Dynamics Calculators

Featured: Blower & Fan performance calculator

Pressure Loss Calculator

Calculate pressure drops in pipes, fittings, and valves

Darcy-Weisbach Hazen-Williams Minor losses

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Gas Pipeline Sizing

Determine optimal pipe diameters for natural gas systems

AGA flow equations Compressibility Pressure drop

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Two-Phase Flow

Analyze simultaneous flow of gas and liquid

Flow regimes Lockhart-Martinelli Slip ratio

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Pump Sizing

Select and size pumps for fluid transfer

NPSH calculations Affinity laws Power requirements

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Compressor Rating

Evaluate compressor performance

Polytropic efficiency Adiabatic head Power requirements

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Blower & Fan

Air movement equipment analysis

Fan laws System curves Power consumption

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Fluid Dynamics Fundamentals

Pressure & Flow

Understand the relationship between pressure, flow rate, and system resistance in fluid systems.

Energy Conservation

Apply Bernoulli's equation to analyze energy transformations in flowing fluids.

System Efficiency

Optimize fluid systems for maximum efficiency and minimum energy consumption.

Reynolds Number

Re = (ρ × v × D) / μ where ρ is density, v is velocity, D is diameter, and μ is viscosity. Determines flow regime (laminar or turbulent).

Darcy-Weisbach Equation

ΔP = f × (L/D) × (ρ × v²/2) where f is friction factor, L is pipe length, D is diameter. Calculates pressure loss in pipes.

Bernoulli Equation

P₁ + ½ρv₁² + ρgh₁ = P₂ + ½ρv₂² + ρgh₂ Conservation of energy for flowing fluids, relating pressure, velocity, and elevation.

Fluid Dynamics Calculators

16 Fluid Dynamics Calculators

Pressure Loss Calculator

Gas Pipeline Sizing

Two-Phase Flow

Pump Sizing

Compressor Rating

Blower & Fan

More Fluid Dynamics Tools

Reynolds Number

Bernoulli Equation

Orifice Flow

Venturi Meter

Weir Calculations

Hydraulic Jump

Viscosity Conversion

Compressible Flow

Fluid Dynamics Fundamentals

Pressure & Flow

Energy Conservation

System Efficiency

Reynolds Number

Darcy-Weisbach Equation

Bernoulli Equation