Numerical study on void fraction wave of reciprocating multiphase pumps with high gas rates based on real gas models

Instantaneous gas-liquid flow and distribution have an important influence on the performance of a multiphase pump, especially under the high gas content conditions. How to accurately simulate the complete working cycle of a multiphase pump and reflect the transient oil-gas flow inside the pump cavi...

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Bibliographic Details
Published inEngineering applications of computational fluid mechanics Vol. 14; no. 1; pp. 607 - 621
Main Authors Ma, Yi, Chen, Yutao, Zhang, Shengchang
Format Journal Article
LanguageEnglish
Published Hong Kong Taylor & Francis 01.01.2020
Taylor & Francis Ltd
Taylor & Francis Group
Subjects
Computational fluid dynamics
Gas flow
gas-liquid flow
high gas rate
Ideal gas
Liquid flow
Mathematical models
Multiphase
Numerical simulation
Phase distribution
Pulsation
Pumps
Real gases
reciprocating multiphase pump
Simulation
Void fraction
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Summary:Instantaneous gas-liquid flow and distribution have an important influence on the performance of a multiphase pump, especially under the high gas content conditions. How to accurately simulate the complete working cycle of a multiphase pump and reflect the transient oil-gas flow inside the pump cavity are the main difficulties of the study. A three-dimensional whole-cycle numerical simulation has been conducted to predict the void fraction waves of the reciprocating multiphase pumps under the high gas rates and to evaluate the effects of multi-case parameters on its pulsation characteristics. The instantaneous two-phase distribution and fluctuation characteristic accompanying the movement of the piston and the valves during each process of the multiphase pump are innovatively obtained under the high gas rates. Five different ideal gas model and real gas models used in this simulation are compared and optimized first, and then validated by the experimental results. Void fraction wave signals in the time and frequency domains are obtained from multiple working cycles of the multiphase pump, and the pulsation rates, propagation speeds, amplitudes, and power spectral densities are analyzed in great detail under different inlet gas contents, pressure ratios, crank speeds, and stroke lengths.
ISSN:1994-2060
1997-003X
DOI:10.1080/19942060.2020.1745890