Sizing Steam Pipes
Reference data and engineering information about sizing steam pipes for fluid mechanics applications.
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Overview
Engineering reference data for Sizing Steam Pipes in fluid mechanics.
Key Formulas
Reynolds Number
Ratio of inertial to viscous forces — determines flow regime.
Bernoulli's Equation
Conservation of energy for steady, inviscid, incompressible flow.
Continuity Equation
Conservation of mass for incompressible flow.
Darcy-Weisbach
Pressure drop due to friction in a pipe.
Variables
| Symbol | Description | Unit |
|---|---|---|
| Reynolds number | — | |
| Fluid density | kg/m³ | |
| Flow velocity | m/s | |
| Characteristic dimension | m | |
| Dynamic viscosity | Pa·s | |
| Pressure | Pa | |
| Darcy friction factor | — |
Steam Pipe Capacity Table
The following table provides capacity data for Schedule 80 steam pipes at various pressures and velocities. The recommended steam velocity for most applications is 80 ft/s.