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Steel Pipes Temperature Expansion

Reference data and engineering information about steel pipes temperature expansion for piping systems applications.

steelpipestemperatureexpansionCalculatorData Table

Overview

Engineering reference data for Steel Pipes Temperature Expansion in piping systems.

Key Formulas

Continuity

A1v1=A2v2A_1 v_1 = A_2 v_2

Mass conservation in pipe flow.

Pressure Drop

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

Darcy-Weisbach equation.

Pipe Area

A=πD24A = \frac{\pi D^2}{4}

Cross-sectional area of a pipe.

Variables

SymbolDescriptionUnit
DDPipe diameterm
vvFlow velocitym/s
ΔP\Delta PPressure dropPa
ffFriction factor
2 rows
Temperature Expansion Coefficient for Steel Pipes
Unit System
Expansion Coefficient((per °))
Expansion per 100 ft / °F(in)
Imperial (in/in)6.5 × 10⁻⁶~0.78
Metric (m/m)14.0 × 10⁻⁶~2.4

Source: engineeringtoolbox.com

Example Calculation: Steam Pipe Expansion

The expansion of a 10 m carbon steel steam pipe from an installation temperature of 20°C to a design temperature of 180°C is calculated as follows:

ΔL=L0αΔT\Delta L = L_0 \cdot \alpha \cdot \Delta T

Where:

  • L0=10mL_0 = 10 \, \text{m} (initial length)
  • α=14.0×106m/m°C\alpha = 14.0 \times 10^{-6} \, \text{m/m°C} (coefficient of thermal expansion)
  • ΔT=180°C20°C=160°C\Delta T = 180°C - 20°C = 160°C
ΔL=10m×14.0×106mm°C×160°C=0.0224m=22.4mm\Delta L = 10 \, \text{m} \times 14.0 \times 10^{-6} \, \frac{\text{m}}{\text{m} \cdot \text{°C}} \times 160 \, \text{°C} = 0.0224 \, \text{m} = 22.4 \, \text{mm}

This results in an expansion of approximately 2.24 mm per meter of pipe length (or 24 mm total for the 10 m pipe, as stated in the source text, accounting for rounding differences).

Note: The provided example also specifies a system pressure of 10 bar, which is a critical operational parameter that influences design but is not part of the linear thermal expansion calculation itself.

Interactive Charts

Steel pipes - temperature expansion diagram - in fahrenheit

References