Virial Approximation for Load and Loss in High-Speed Journal Bearings Using Pressurized Gases

Virial Approximation for Load and Loss in High-Speed Journal Bearings Using Pressurized Gases

We consider steady, laminar, compressible lubrication flows in a high-speed two-dimensional journal bearing governed by the appropriate Reynolds equation. The thermodynamic states correspond to pressurized gases and are in the single-phase regime. Simple explicit formulas for the load capacity, powe...

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Bibliographic Details
Main Authors: Ssu-Ying Chien, Mark S. Cramer
Format: Article
Language:English
Published: MDPI AG 2019-02-01
Series:Fluids
Subjects:
fluid mechanics
supercritical fluids
virial expansion
compressible lubrication
low Reynolds number
Online Access:https://www.mdpi.com/2311-5521/4/1/27
Description
Summary:We consider steady, laminar, compressible lubrication flows in a high-speed two-dimensional journal bearing governed by the appropriate Reynolds equation. The thermodynamic states correspond to pressurized gases and are in the single-phase regime. Simple explicit formulas for the load capacity, power loss, and attitude angle are derived by applying the virial (or small density) expansions of pressure and shear viscosity to results developed in previous studies. The present virial approximation was compared to the exact numerical solutions to the Reynolds equation. It was shown that the results based on our virial expansions are quite accurate at thermodynamic states corresponding to dense and supercritical gases. The first virial correction is seen to significantly improve predictions based on the ideal gas theory.
ISSN:2311-5521

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