Water Pressure Drop Calculator

Calculate pressure drop in water pipes using the Darcy-Weisbach equation combined with the Colebrook-White friction factor for turbulent flow.

Steel≈0.046, Copper≈0.0015, PVC≈0.0015, Cast Iron≈0.26
Enter values above and click Calculate.

Formulas Used

Darcy-Weisbach Equation:

ΔP = f · (L / D) · (ρ · V² / 2)

Flow Velocity: V = Q / A = Q / (π D² / 4)

Reynolds Number: Re = V · D / ν   (ν = μ / ρ)

Friction Factor:

  • Turbulent (Re ≥ 4000): Colebrook-White equation (iterated to convergence):
    1/√f = −2 log₁₀( ε/(3.7D) + 2.51/(Re √f) )

Water Density (empirical, 0–100 °C):
ρ = 999.842 − 0.0622T − 0.003821T² + 4×10⁻⁶T³  (kg/m³)

Dynamic Viscosity (Vogel equation):
μ = 2.414×10⁻⁵ × 10^(247.8 / (T + 133.15))  (Pa·s)

Assumptions & References

  • Colebrook-White equation: Colebrook, C.F. (1939), J. Inst. Civil Engineers, 11, 133–156.
  • Darcy-Weisbach: Moody, L.F. (1944), Trans. ASME, 66(8), 671–684.
  • Viscosity: Vogel, H. (1921), Physikalische Zeitschrift, 22, 645–646.

More Calculators

Browse All 1861 Free Calculators at National Calculator Authority

Read Next

Los Angeles Plumbing: Frequently Asked Questions ANA › Trade Services Authority › National Plumbing › California Plumb › Los Angeles Plumb Los Angeles Plumbing: Frequently Asked... Plumbing Costs and Pricing in Los Angeles ANA › Trade Services Authority › National Plumbing › California Plumb › Los Angeles Plumb Plumbing Costs and Pricing in Los Angeles... History of Plumbing Infrastructure in Los Angeles ANA › Trade Services Authority › National Plumbing › California Plumb › Los Angeles Plumb History of Plumbing Infrastructure in Los...