Abstract
Hydrostatic journal bearings have been employed in several applications where the lubricant is a working fluid with low viscosity. The resulting turbulent flow can be analyzed by considering three major pressure drops: pressure drop across the orifice restrictor, pressure drop over the pocket edges, and pressure drop across the bearing lands. This paper presents a finite element analysis of bearings in the above category. The bearings here have axial grooves between the pockets and either one or two pockets per pad. Both static and dynamic bearing properties are calculated for example bearings.
Presented at the 40th Annual Meeting in Las Vegas, Nevada May 6–9, 1985
Notes
Presented at the 40th Annual Meeting in Las Vegas, Nevada May 6–9, 1985