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Pipes Schedules

Reference data and engineering information about pipes schedules for fluid mechanics applications.

pipesschedules

Overview

Engineering reference data for Pipes Schedules in fluid mechanics.

Key Formulas

Reynolds Number

Re=ρvDμRe = \frac{\rho v D}{\mu}

Ratio of inertial to viscous forces — determines flow regime.

Bernoulli's Equation

P+12ρv2+ρgh=constP + \frac{1}{2}\rho v^2 + \rho g h = \text{const}

Conservation of energy for steady, inviscid, incompressible flow.

Continuity Equation

A1v1=A2v2A_1 v_1 = A_2 v_2

Conservation of mass for incompressible flow.

Darcy-Weisbach

ΔP=fLDρv22\Delta P = f \frac{L}{D} \frac{\rho v^2}{2}

Pressure drop due to friction in a pipe.

Variables

SymbolDescriptionUnit
ReReReynolds number
ρ\rhoFluid densitykg/m³
vvFlow velocitym/s
DDCharacteristic dimensionm
μ\muDynamic viscosityPa·s
PPPressurePa
ffDarcy friction factor

Pipe Schedule Terminology

The schedule of a pipe defines its wall thickness and pressure rating. Key designations include:

  • Schedule (Sch.): A numerical identifier indicating wall thickness. For a given nominal pipe size (NPS), a higher schedule number means a thicker wall.
  • Standard Wall (STD): For NPS 1/8 to NPS 10, STD is equivalent to Schedule 40. For NPS 12 and above, it may align with Schedule 30 or specific thicknesses.
  • Extra Strong (XS): For NPS 1/8 to NPS 8, XS corresponds to Schedule 80. For NPS 8 to NPS 12, it is often Schedule 80, with variations for larger sizes.
  • Double Extra Strong (XXS): A wall thickness approximately double that of XS pipes, not directly tied to a schedule number; it exceeds Schedule 160 for some sizes.

These terms standardize pipe dimensions for engineering design and specifications.

References