International Journal of I.C. Engines and Gas Turbines

In hydrostatic bearing, the oil or lubricant is supplied to the required place in bearing from external source that place is the recess. The oil enters axially and leaves perpendicularly. The important task for the purpose of analysis is finding pressure distribution in the recess. The problem here is that, it is possible to find out analytical solution for one dimension, but it is not possible to find out pressure distribution in the recess for two-dimensions.

oil; computational fluid dynamics; lubricant; hydrostatic bearing

Caramia G, Carbone G, De Palma P. Hydrodynamic lubrication of micro-textured surfaces: Two dimensional CFD-analyses. Tribology International. 2015; 88: 162–169p.

Eleshaky ME. CFD investigation of pressure depressions in aerostatic circular thrust bearings. Tribology International. 2009; 42(7): 1108–1117p.

Gao S, Cheng K, Chen S, Ding H, Fu H. CFD based investigation on influence of orifice chamber shapes for the design of aerostatic thrust bearings at ultra-high speed spindles. Tribology international. 2015; 92: 211–221p.

Gertzos KP, Nikolakopoulos PG, Papadopoulos CA.. CFD analysis of journal bearing hydrodynamic lubrication by Bingham lubricant. Tribology International. 2008; 41(12): 1190–1204p.

Gertzos KP, Nikolakopoulos PG, Chasalevris AC, Papadopoulos CA. Wear identification in rotor-bearing systems by measurements of dynamic bearing characteristics. Computers & Structures. 2011; 89(1–2): 55–66p.

Brajdic-Mitidieri P, Gosman AD, Ioannides E, Spikes HA. CFD analysis of a low friction pocketed pad bearing. Journal of Tribology. 2005; 127(4): 803–812p.

Gao G, Yin Z, Jiang D, Zhang X. Numerical analysis of plain journal bearing under hydrodynamic lubrication by water. Tribology International. 2014; 75: 31–38p.

Sahlin F, Glavatskih SB, Almqvist T, Larsson R. Two-dimensional CFD-analysis of micro-patterned surfaces in hydrodynamic lubrication. Journal of Tribology. 2005; 127(1): 96–102p.

Dousti S, Allaire P, Dimond T, Cao J.. An extended Reynold equation applicable to high reduced Reynolds number operation of journal bearings. Tribology International. 2016; 102: 182–197p.

Nassab SG, Moayeri MS. Three-dimensional thermohydrodynamic analysis of axially grooved journal bearings. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology. 2002; 216(1): 35–47p.

Manshoor B, Jaat M, Izzuddin Z, Amir K. CFD analysis of thin film lubricated journal bearing. Procedia Engineering. 2013; 68: 56–62p.

Li Q, Liu SL, Pan XH, Zheng SY. A new method for studying the 3D transient flow of misaligned journal bearings in flexible rotor-bearing systems. Journal of Zhejiang University Science A. 2012; 13(4), 293–310p.

Zhang X, Yin Z, Gao G, Li Z.. Determination of stiffness coefficients of hydrodynamic water-lubricated plain journal bearings. Tribology International. 2015; 85: 37–47p.

Cupillard S, Glavatskih S, Cervantes MJ. 3D thermohydrodynamic analysis of a textured slider. Tribology international. 2009; 42(10): 1487–1495p.