Thermal analysis of hydrodynamic lubricated journal bearings in internal combustion engines

Lorenz, Norbert; Offner, Günter; Knaus, Oliver

doi:10.1177/1464419317693878

Cited by 4 publications

(4 citation statements)

References 41 publications

(108 reference statements)

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“…The distribution of oil film temperature determined by the current study was compared to that determined by Ferron et al (1983) [16], as depicted in figure (4). This graph demonstrates the strong correlation between the two distributions of oil film temperature, with a maximum variance of 1.26 percent.…”

Section: Validation Of the Cfd Modelmentioning

confidence: 79%

Elastohydrodynamic analysis of a journal bearing with different grade oils considering thermal and cavitation effects using CFD-FSI

Kadhim,

Hammed,

Rahima

et al. 2023

Diagnostyka

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This paper investigates a three-dimensional CFD analysis of hydrodynamic journal bearing performance for two different available types of lubricants, SEA 10W50 and SEA 15W40, considering thermal, elastic deformation, and cavitation effects. A 3-dimensional CFD model founded on continuity, momentum, energy, in addition elasticity equations has been implemented. The analysis is performed for a bearing with different journal speeds (1000-3000rpm) and eccentricity ratios (0.1-0.9). The cavitation effect was considered using the model of Zwart-Gerber-Balamri multiphase flow model. The bearing material elastic deformation was considered by implementing the two-way FSI technique through ANSYS-FLUENT 2019 R2. A comparative study of the oil film temperature, thermal pressure, also the load capacity by the bearing has been performed. By comparing the current work's oil film temperature results with those obtained by Ferron et al (1983), with a maximum deviation between the results not exceeding 3 percent, the mathematical model was validated. The findings demonstrate that, once the cavitation consequence is taken into account, the lubricant film pressure decreases. Furthermore, at what time the bearing rotates at greater eccentricity ratios and rotational speeds, more deformation material of the bearing is seen. The current research may help in predicting the bearing performance parameters in real-world situations.

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Section: Validation Of the Cfd Modelmentioning

confidence: 79%

Elastohydrodynamic analysis of a journal bearing with different grade oils considering thermal and cavitation effects using CFD-FSI

Kadhim,

Hammed,

Rahima

et al. 2023

Diagnostyka

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“…This work involves modelling the friction in both the engine [92,108] and transmission incorporating things such as bearing friction models [109], pistons liner contact [110], valvetrain lubrication, friction in the gear mesh [111], torque converter efficiency and torque losses due to pumping requirements. These models tend to use similar methodology to the coolant circuit with the added complexity that the relevant properties of the oil, such as viscosity, are much more variable with temperature [112].…”

Section: Development Of the Powertrain Warm-up Simulationmentioning

confidence: 99%

Modelling and Co-simulation of hybrid vehicles: A thermal management perspective

Yuan

Fletcher

Ahmedov

et al. 2020

Applied Thermal Engineering

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“…Motions of the rotor are decomposed to elastic and gross coordinates. In order to simulate both types of the motion, the system of 2 differential algebraic equations described by Lorenz et al (2017) is employed (time is omitted):…”

Section: Equations Of Motion Of a Flexible Rotor Supported On Journal Bearingsmentioning

confidence: 99%

“…We assume that the oil is an incompressible Newtonian fluid, the film is thin, the flow in the film is laminar and cavitation may occur. Pressure * is then governed by the Reynolds equation in the form (Lorenz et al, 2017…”

Section: Equations Of Motion Of a Flexible Rotor Supported On Journal Bearingsmentioning

confidence: 99%

Sub-Synchronous Vibrations of a Rotor Supported on Poorly Lubricated Journal Bearings

Smolík¹,

Polach²,

Rendl³

2019

Engineering Mechanics

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This paper aims to the modelling and investigation of sub-synchronous vibrations of a rotor supported on poorly lubricated journal bearings. Bores for an oil supply are located in the lower halves of bearing shells. It is shown that the poor lubrication of the described bearings may lead to an occurrence of stable vibrations at the frequency ca. 0.9 to the rotor speed. Simulations are performed using a multi-body approach for modelling rotating systems. Forces acting in journal bearings are evaluated employing a massconserving finite element solution of the Reynolds equation.

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Thermal analysis of hydrodynamic lubricated journal bearings in internal combustion engines

Cited by 4 publications

References 41 publications

Elastohydrodynamic analysis of a journal bearing with different grade oils considering thermal and cavitation effects using CFD-FSI

Elastohydrodynamic analysis of a journal bearing with different grade oils considering thermal and cavitation effects using CFD-FSI

Modelling and Co-simulation of hybrid vehicles: A thermal management perspective

Sub-Synchronous Vibrations of a Rotor Supported on Poorly Lubricated Journal Bearings

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