The inside film coefficient needed for the thermal calculations may be estimated by several different methods. The API RP530, Appendix C provides the following methods,
For liquid flow with Re =>10,000,| hl = Heat transfer coefficient, liquid phase, Btu/hr-ft2-°F |
| k = Thermal conductivity, Btu/hr-ft-°F |
| di = Inside diameter of tube, ft |
| mb = Absolute viscosity at bulk temperature, lb/ft-hr |
| mw = Absolute viscosity at wall temperature, lb/ft-hr |
| hv = Heat transfer coefficient, vapor phase, Btu/hr-ft2-°F |
| Tb = Bulk temperature of vapor, °R |
| Tw = Wall Temperature of vapor, °R |
| G = Mass flow of fluid, lb/hr-ft2 |
| Cp = Heat capacity of fluid at bulk temperature, Btu/lb-°F |
| htp = Heat transfer coefficient, two-phase, Btu/hr-ft2-°F |
| Wl = Weight fraction of liquid |
| Wv = Weight fraction of vapor |
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