Design Method of Controllable Blade Angle and Orthogonal Optimization of Pressure Rise for a Multiphase Pump

Design Method of Controllable Blade Angle and Orthogonal Optimization of Pressure Rise for a Multiphase Pump

The hydraulic design method of controllable blade angle for rotodynamic multiphase pump with impeller and diffuser is proposed. The distribution of blade angle along the meridional streamline is governed by the normalized fourth-order and first-order polynomial function for impeller and diffuser, re...

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Main Authors: Ming Liu, Lei Tan, Shuliang Cao
Format: Article
Language:English
Published: MDPI AG 2018-04-01
Series:Energies
Subjects:
multiphase pump
design method
controllable blade angle
pressure rise
orthogonal optimization
Online Access:http://www.mdpi.com/1996-1073/11/5/1048
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spelling doaj-7fb74a53def04e17ad0244ee099530eb2020-11-24T21:00:34ZengMDPI AGEnergies1996-10732018-04-01115104810.3390/en11051048en11051048Design Method of Controllable Blade Angle and Orthogonal Optimization of Pressure Rise for a Multiphase PumpMing Liu0Lei Tan1Shuliang Cao2State Key Laboratory of Hydroscience and Engineering, Department of Energy and Power Engineering, Tsinghua University, Beijing 100084, ChinaState Key Laboratory of Hydroscience and Engineering, Department of Energy and Power Engineering, Tsinghua University, Beijing 100084, ChinaState Key Laboratory of Hydroscience and Engineering, Department of Energy and Power Engineering, Tsinghua University, Beijing 100084, ChinaThe hydraulic design method of controllable blade angle for rotodynamic multiphase pump with impeller and diffuser is proposed. The distribution of blade angle along the meridional streamline is governed by the normalized fourth-order and first-order polynomial function for impeller and diffuser, respectively. The orthogonal optimization method with five factors and four levels is employed by numerical simulation to optimize the geometry parameters, including the shroud angle at the leading and trailing edge βIs0, βIs1, the blade difference at inlet ∆βI0, and the coefficients at hub and shroud kh, ks. According to orthogonal analysis, the influence of each factor on pressure rise is estimated, and the optimization values of for those parameters are determined. The pressure rise of optimization multiphase pump is increased by 12.8 kPa in comparison of the base pump. Results show that the distributions of gas volume fraction (GVF) and the pressure become more uniform after optimization, which improves the transporting performance of the multiphase pump.http://www.mdpi.com/1996-1073/11/5/1048multiphase pumpdesign methodcontrollable blade anglepressure riseorthogonal optimization
collection DOAJ
language English
format Article
sources DOAJ
author Ming Liu
Lei Tan
Shuliang Cao
spellingShingle Ming Liu
Lei Tan
Shuliang Cao
Design Method of Controllable Blade Angle and Orthogonal Optimization of Pressure Rise for a Multiphase Pump
Energies
multiphase pump
design method
controllable blade angle
pressure rise
orthogonal optimization
author_facet Ming Liu
Lei Tan
Shuliang Cao
author_sort Ming Liu
title Design Method of Controllable Blade Angle and Orthogonal Optimization of Pressure Rise for a Multiphase Pump
title_short Design Method of Controllable Blade Angle and Orthogonal Optimization of Pressure Rise for a Multiphase Pump
title_full Design Method of Controllable Blade Angle and Orthogonal Optimization of Pressure Rise for a Multiphase Pump
title_fullStr Design Method of Controllable Blade Angle and Orthogonal Optimization of Pressure Rise for a Multiphase Pump
title_full_unstemmed Design Method of Controllable Blade Angle and Orthogonal Optimization of Pressure Rise for a Multiphase Pump
title_sort design method of controllable blade angle and orthogonal optimization of pressure rise for a multiphase pump
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2018-04-01
description The hydraulic design method of controllable blade angle for rotodynamic multiphase pump with impeller and diffuser is proposed. The distribution of blade angle along the meridional streamline is governed by the normalized fourth-order and first-order polynomial function for impeller and diffuser, respectively. The orthogonal optimization method with five factors and four levels is employed by numerical simulation to optimize the geometry parameters, including the shroud angle at the leading and trailing edge βIs0, βIs1, the blade difference at inlet ∆βI0, and the coefficients at hub and shroud kh, ks. According to orthogonal analysis, the influence of each factor on pressure rise is estimated, and the optimization values of for those parameters are determined. The pressure rise of optimization multiphase pump is increased by 12.8 kPa in comparison of the base pump. Results show that the distributions of gas volume fraction (GVF) and the pressure become more uniform after optimization, which improves the transporting performance of the multiphase pump.
topic multiphase pump
design method
controllable blade angle
pressure rise
orthogonal optimization
url http://www.mdpi.com/1996-1073/11/5/1048
work_keys_str_mv AT mingliu designmethodofcontrollablebladeangleandorthogonaloptimizationofpressureriseforamultiphasepump
AT leitan designmethodofcontrollablebladeangleandorthogonaloptimizationofpressureriseforamultiphasepump
AT shuliangcao designmethodofcontrollablebladeangleandorthogonaloptimizationofpressureriseforamultiphasepump
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