Numerical Study of Cavitating Flows in an External Gear Pump with Special Emphasis on Thermodynamic Effects

Xiaomi Wu; Yiyang Liu; Zhixing Li; Xinxin Yin; Tairan Chen

doi:10.3390/app15073529

Numerical Study of Cavitating Flows in an External Gear Pump with Special Emphasis on Thermodynamic Effects

Xiaomi Wu, Yiyang Liu, Zhixing Li, Xinxin Yin, Tairan Chen^*

^*Corresponding author for this work

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

Abstract

Cavitation is a critical phenomenon in hydraulic systems, particularly in gear pumps, where it can significantly affect performance and reliability. This study uses numerical simulations with the Full Cavitation Model and k-ε turbulence model to investigate the thermodynamic effects of cavitation in gear pump lubricating oil at varying temperatures. It focuses on the formation and evolution of cavitation vortex structures in the outlet bridge area. The simulations reveal significant heat exchange between liquid and vapor phases, causing a local temperature drop and a reduction in saturated vapor pressure, which suppresses cavitation development. As temperature increases, this effect diminishes due to the lower density of the hydraulic oil.

Original language	English
Article number	3529
Journal	Applied Sciences (Switzerland)
Volume	15
Issue number	7
DOIs	https://doi.org/10.3390/app15073529
Publication status	Published - Apr 2025
Externally published	Yes

Keywords

CFD
cavitation characteristics
external gear pump
thermodynamic effects

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10.3390/app15073529

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title = "Numerical Study of Cavitating Flows in an External Gear Pump with Special Emphasis on Thermodynamic Effects",

abstract = "Cavitation is a critical phenomenon in hydraulic systems, particularly in gear pumps, where it can significantly affect performance and reliability. This study uses numerical simulations with the Full Cavitation Model and k-ε turbulence model to investigate the thermodynamic effects of cavitation in gear pump lubricating oil at varying temperatures. It focuses on the formation and evolution of cavitation vortex structures in the outlet bridge area. The simulations reveal significant heat exchange between liquid and vapor phases, causing a local temperature drop and a reduction in saturated vapor pressure, which suppresses cavitation development. As temperature increases, this effect diminishes due to the lower density of the hydraulic oil.",

keywords = "CFD, cavitation characteristics, external gear pump, thermodynamic effects",

author = "Xiaomi Wu and Yiyang Liu and Zhixing Li and Xinxin Yin and Tairan Chen",

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doi = "10.3390/app15073529",

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volume = "15",

journal = "Applied Sciences (Switzerland)",

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AU - Wu, Xiaomi

AU - Liu, Yiyang

AU - Li, Zhixing

AU - Yin, Xinxin

AU - Chen, Tairan

PY - 2025/4

Y1 - 2025/4

N2 - Cavitation is a critical phenomenon in hydraulic systems, particularly in gear pumps, where it can significantly affect performance and reliability. This study uses numerical simulations with the Full Cavitation Model and k-ε turbulence model to investigate the thermodynamic effects of cavitation in gear pump lubricating oil at varying temperatures. It focuses on the formation and evolution of cavitation vortex structures in the outlet bridge area. The simulations reveal significant heat exchange between liquid and vapor phases, causing a local temperature drop and a reduction in saturated vapor pressure, which suppresses cavitation development. As temperature increases, this effect diminishes due to the lower density of the hydraulic oil.

AB - Cavitation is a critical phenomenon in hydraulic systems, particularly in gear pumps, where it can significantly affect performance and reliability. This study uses numerical simulations with the Full Cavitation Model and k-ε turbulence model to investigate the thermodynamic effects of cavitation in gear pump lubricating oil at varying temperatures. It focuses on the formation and evolution of cavitation vortex structures in the outlet bridge area. The simulations reveal significant heat exchange between liquid and vapor phases, causing a local temperature drop and a reduction in saturated vapor pressure, which suppresses cavitation development. As temperature increases, this effect diminishes due to the lower density of the hydraulic oil.

KW - CFD

KW - cavitation characteristics

KW - external gear pump

KW - thermodynamic effects

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DO - 10.3390/app15073529

M3 - Article

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SN - 2076-3417

VL - 15

JO - Applied Sciences (Switzerland)

JF - Applied Sciences (Switzerland)

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M1 - 3529

ER -

Numerical Study of Cavitating Flows in an External Gear Pump with Special Emphasis on Thermodynamic Effects

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Keywords

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