J. Pereira–Pérez scite author profile

In this work, a combination of numerical methods applied to thermohydrodynamic lubrication problems with cavitation is presented. It should be emphasized the difficulty of the nonlinear mathematical coupled model involving a free boundary problem, but also the simplicity of the algorithms employed to solve it. So, finite element discretizations for the hydrodynamic and thermal equations combined with upwind techniques for the convection terms and duality methods for nonlinear features are proposed.Additionally, a model describing the movement of the shaft is provided. Considering the shaft as a rigid body this model will consist of an ODE system relating acceleration of the center of gravity and external and pressure loads. The numerical experiments of mechanical stability try to clarify the position of the neutral stability curve.Finally, a rotating machine for ship propulsion involving both axial and radial bearings operating with nonconventional lubricants (seawater to avoid environmental pollution) is analyzed by using laminar and turbulent inertial flows.

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Stability analysis of thermodynamic lubrication problems in journal bearings

Durany

Pereira–Pérez

Varas

2007

Proc Appl Math and Mech

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J. Pereira–Pérez

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Some aspects of lubrication in heavy regimes: Thermal effects, stability and turbulence

Stability analysis of thermodynamic lubrication problems in journal bearings

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