The lubrication performance of water lubricated bearing with consideration of wall slip and inertial force

Zhong liang Xie; Na Ta; Zhu shi Rao

doi:10.1016/S1001-6058(16)60716-3

The lubrication performance of water lubricated bearing with consideration of wall slip and inertial force

Zhong liang Xie, Na Ta, Zhu shi Rao

Shanghai Jiao Tong University

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

46 Scopus citations

Abstract

The lubrication mechanism and the performance parameters with consideration of wall slip and inertial force are studied in this paper. Based on the modified Reynolds equation, the finite difference method is used to study the lubrication mechanism and the performance. Effects of the wall slip and the inertial force on the performance parameters are obtained, and found in good agreement with the results of FLUENT. It is shown that the wall slip and the inertial force do not significantly change the distribution of the pressure, the load capacity and the friction force. The inertial force slightly increases the pressure and the load capacity by 1.2% and 4.8%, while the wall slip reduces them by 8.0% and 17.85%. The wall slip and the inertial force increase the friction by about 15.98%, 2.33%, respectively. Compared with the wall slip, the inertial force is smaller, but cannot be neglected.

Original language	English
Pages (from-to)	52-60
Number of pages	9
Journal	Journal of Hydrodynamics
Volume	29
Issue number	1
DOIs	https://doi.org/10.1016/S1001-6058(16)60716-3
State	Published - 1 Feb 2017
Externally published	Yes

Keywords

Water lubricated bearing
inertial force effect
lubrication performance
wall slip

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10.1016/S1001-6058(16)60716-3

Cite this

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title = "The lubrication performance of water lubricated bearing with consideration of wall slip and inertial force",

abstract = "The lubrication mechanism and the performance parameters with consideration of wall slip and inertial force are studied in this paper. Based on the modified Reynolds equation, the finite difference method is used to study the lubrication mechanism and the performance. Effects of the wall slip and the inertial force on the performance parameters are obtained, and found in good agreement with the results of FLUENT. It is shown that the wall slip and the inertial force do not significantly change the distribution of the pressure, the load capacity and the friction force. The inertial force slightly increases the pressure and the load capacity by 1.2% and 4.8%, while the wall slip reduces them by 8.0% and 17.85%. The wall slip and the inertial force increase the friction by about 15.98%, 2.33%, respectively. Compared with the wall slip, the inertial force is smaller, but cannot be neglected.",

keywords = "Water lubricated bearing, inertial force effect, lubrication performance, wall slip",

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T1 - The lubrication performance of water lubricated bearing with consideration of wall slip and inertial force

AU - Xie, Zhong liang

AU - Ta, Na

AU - Rao, Zhu shi

PY - 2017/2/1

Y1 - 2017/2/1

N2 - The lubrication mechanism and the performance parameters with consideration of wall slip and inertial force are studied in this paper. Based on the modified Reynolds equation, the finite difference method is used to study the lubrication mechanism and the performance. Effects of the wall slip and the inertial force on the performance parameters are obtained, and found in good agreement with the results of FLUENT. It is shown that the wall slip and the inertial force do not significantly change the distribution of the pressure, the load capacity and the friction force. The inertial force slightly increases the pressure and the load capacity by 1.2% and 4.8%, while the wall slip reduces them by 8.0% and 17.85%. The wall slip and the inertial force increase the friction by about 15.98%, 2.33%, respectively. Compared with the wall slip, the inertial force is smaller, but cannot be neglected.

AB - The lubrication mechanism and the performance parameters with consideration of wall slip and inertial force are studied in this paper. Based on the modified Reynolds equation, the finite difference method is used to study the lubrication mechanism and the performance. Effects of the wall slip and the inertial force on the performance parameters are obtained, and found in good agreement with the results of FLUENT. It is shown that the wall slip and the inertial force do not significantly change the distribution of the pressure, the load capacity and the friction force. The inertial force slightly increases the pressure and the load capacity by 1.2% and 4.8%, while the wall slip reduces them by 8.0% and 17.85%. The wall slip and the inertial force increase the friction by about 15.98%, 2.33%, respectively. Compared with the wall slip, the inertial force is smaller, but cannot be neglected.

KW - Water lubricated bearing

KW - inertial force effect

KW - lubrication performance

KW - wall slip

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The lubrication performance of water lubricated bearing with consideration of wall slip and inertial force

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