CFD analysis of performance change in accordance with inner surface roughness of a double-entry centrifugal pump

Sung Eun Lim; Chang Hyun Sohn

doi:10.1007/s12206-018-0117-1

CFD analysis of performance change in accordance with inner surface roughness of a double-entry centrifugal pump

Sung Eun Lim, Chang Hyun Sohn

School of Mechanical Engineering

K-water

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

In this study, the performance change of a double suction centrifugal pump (Q = 60 m³/min, H = 97 m) was analyzed using Computational fluid dynamics (CFD) to investigate the effects of internal surface roughness of pump components. The calculated performance of the pump using CFD is in strong agreement with the experimental results, which used a smooth wall case. In terms of the predicted total pump efficiency with the surface roughness case, the CFD results indicate that the pump efficiency is reduced by approximately 3.0 %. CFD results reveal that the most significant roughness effect on the pump components is that of the impeller, whereas the smallest effect is that of the inlet casing. Furthermore, the CFD results demonstrate that the pump performance is strongly dependent on the outward shroud surface roughness of the impeller.

Original language	English
Pages (from-to)	697-702
Number of pages	6
Journal	Journal of Mechanical Science and Technology
Volume	32
Issue number	2
DOIs	https://doi.org/10.1007/s12206-018-0117-1
State	Published - 1 Feb 2018

Keywords

CFD
Pump coating
Pump efficiency
Surface roughness

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10.1007/s12206-018-0117-1

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title = "CFD analysis of performance change in accordance with inner surface roughness of a double-entry centrifugal pump",

abstract = "In this study, the performance change of a double suction centrifugal pump (Q = 60 m3/min, H = 97 m) was analyzed using Computational fluid dynamics (CFD) to investigate the effects of internal surface roughness of pump components. The calculated performance of the pump using CFD is in strong agreement with the experimental results, which used a smooth wall case. In terms of the predicted total pump efficiency with the surface roughness case, the CFD results indicate that the pump efficiency is reduced by approximately 3.0 \%. CFD results reveal that the most significant roughness effect on the pump components is that of the impeller, whereas the smallest effect is that of the inlet casing. Furthermore, the CFD results demonstrate that the pump performance is strongly dependent on the outward shroud surface roughness of the impeller.",

keywords = "CFD, Pump coating, Pump efficiency, Surface roughness",

author = "Lim, \{Sung Eun\} and Sohn, \{Chang Hyun\}",

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T1 - CFD analysis of performance change in accordance with inner surface roughness of a double-entry centrifugal pump

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AU - Sohn, Chang Hyun

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N2 - In this study, the performance change of a double suction centrifugal pump (Q = 60 m3/min, H = 97 m) was analyzed using Computational fluid dynamics (CFD) to investigate the effects of internal surface roughness of pump components. The calculated performance of the pump using CFD is in strong agreement with the experimental results, which used a smooth wall case. In terms of the predicted total pump efficiency with the surface roughness case, the CFD results indicate that the pump efficiency is reduced by approximately 3.0 %. CFD results reveal that the most significant roughness effect on the pump components is that of the impeller, whereas the smallest effect is that of the inlet casing. Furthermore, the CFD results demonstrate that the pump performance is strongly dependent on the outward shroud surface roughness of the impeller.

AB - In this study, the performance change of a double suction centrifugal pump (Q = 60 m3/min, H = 97 m) was analyzed using Computational fluid dynamics (CFD) to investigate the effects of internal surface roughness of pump components. The calculated performance of the pump using CFD is in strong agreement with the experimental results, which used a smooth wall case. In terms of the predicted total pump efficiency with the surface roughness case, the CFD results indicate that the pump efficiency is reduced by approximately 3.0 %. CFD results reveal that the most significant roughness effect on the pump components is that of the impeller, whereas the smallest effect is that of the inlet casing. Furthermore, the CFD results demonstrate that the pump performance is strongly dependent on the outward shroud surface roughness of the impeller.

KW - CFD

KW - Pump coating

KW - Pump efficiency

KW - Surface roughness

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CFD analysis of performance change in accordance with inner surface roughness of a double-entry centrifugal pump

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