Numerical simulation of steam–water two‐phase flow under dynamic load

Numerical simulation of steam–water two‐phase flow under dynamic load

A separated‐phase physical model for steam–water two‐phase flow on a rotating platform was developed. The mesh generation for a horizontal pipe was conducted, and the finite volume method was used to discretize the equations. Equations were solved with the SIMPLE algorithm after setting the initial...

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Veröffentlicht in:Heat transfer, Asian research Asian research, 2018-06, Vol.47 (4), p.660-668
Hauptverfasser: Zhang, Zhao, Song, Baoyin, Yao, Qiuping, Cao, Xi
Format: Artikel
Sprache:eng
Schlagworte:
boiling heat transfer
Computer simulation
dynamic load
Dynamic loads
Finite element method
Finite volume method
flow characteristics
Mathematical models
Mesh generation
numerical simulation
Pressure drop
two‐phase flow
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Zusammenfassung:A separated‐phase physical model for steam–water two‐phase flow on a rotating platform was developed. The mesh generation for a horizontal pipe was conducted, and the finite volume method was used to discretize the equations. Equations were solved with the SIMPLE algorithm after setting the initial and boundary conditions. Predicted results were compared with experimental data, and they agreed well with each other. The results showed that the fluid outlet pressure and pressure drop in the test section increased with increasing dynamic load. However, the effective heat transferred to the fluid decreased with the increase of dynamic load. The developed model can be used to simulate the gas–liquid two‐phase flow under different gravity or rotary conditions.
ISSN:1099-2871
1523-1496
DOI:10.1002/htj.21334