Reference data and engineering information about pressure head water for fluid mechanics applications.
Engineering reference data for Pressure Head Water in fluid mechanics.
Re=μρvD
Ratio of inertial to viscous forces — determines flow regime.
P+21ρv2+ρgh=const
Conservation of energy for steady, inviscid, incompressible flow.
A1v1=A2v2
Conservation of mass for incompressible flow.
ΔP=fDL2ρv2
Pressure drop due to friction in a pipe.
| Symbol | Description | Unit |
|---|
| Re | Reynolds number | — |
| ρ | Fluid density | kg/m³ |
| v | Flow velocity | m/s |
| D | Characteristic dimension | m |
| μ | Dynamic viscosity | Pa·s |
| P | Pressure | Pa |
| f | Darcy friction factor | — |
- 1ftH2O=0.4335psi
- 1ftH2O=62.43lbs/ft2
- 1psi=2.307ftH2O
1psi=144psf
1psi=6894.8Pa
1psi=6.895×10−3N/mm2
1psi=6.895×10−2bar
1psi=27.71in H2O at 61∘F(16.7∘C)
1psi=703.1mm H2O at 61∘F(16.7∘C)
1psi=2.0416in mercury at 61∘F(16.7∘C)
1psi=51.8mm mercury at 61∘F(16.7∘C)
1psi=703.6kg/m2
1psi=0.06895atm
1psi=16ozf/in2(ounce-force per square inch)
A head of 64 ftH₂O can be converted to pressure using the factor 0.4335psi/ftH2O:
## References
- [Original Source](https://www.engineeringtoolbox.com/pressure-head-water-d_1354.html)