SURFACE TEMPERATURE EFFECT ON THETHERMOHYDRODYNAMIC PERFORMANCE OF JOURNALBEARING IN HEAVY DUTY MACHINERY

محتوى المقالة الرئيسي

Basim A. Abass
Ala M. Hosain
Basim R. Sadiq

الملخص

 Increasing high demands for concept design requires journal bearing to work under several operating condition. The purpose of this work is to study the effect of surface temperature on the performance of journal bearing for heavy duty machines. Steady state thermohydrodynamic model (THD) for journal bearings has been developed. The generalized Reynold's equation, energy equation in the oil film, and the heat transfer equation in the bush and shaft are solved simultaneously. It was found that the shaft temperature has a great effect on the performance of the bearing. 

تفاصيل المقالة

كيفية الاقتباس
"SURFACE TEMPERATURE EFFECT ON THETHERMOHYDRODYNAMIC PERFORMANCE OF JOURNALBEARING IN HEAVY DUTY MACHINERY" (2024) مجلة الهندسة, 16(04), ص 6071–6084. doi:10.31026/j.eng.2010.04.26.
القسم
Articles

كيفية الاقتباس

"SURFACE TEMPERATURE EFFECT ON THETHERMOHYDRODYNAMIC PERFORMANCE OF JOURNALBEARING IN HEAVY DUTY MACHINERY" (2024) مجلة الهندسة, 16(04), ص 6071–6084. doi:10.31026/j.eng.2010.04.26.

تواريخ المنشور

المراجع

E. W. Cowking, "Themohydrodynamic Analysis of Multi-Arc Journal Bearing",

TRIBOLOGY international, pp.217-223, August 1981.

 H. Heshmat, and O. Pinkus, "Mixing Inlet Temperatures in Hydrodynamic Bearings",

Journal of Tribology, vol. 108, pp.231-248, April 1986.

 J. Ferron, J. Frene, and R. Boncompain, "A Study of the Thermohydrodynamic

Performance of a Plain Journal Bearing Theory and Experiments", Transaction of the

ASME, vol. 105, pp.422-428, July 1983.

 J. Mitsui, Y. Hori, and M. Tanaka, "Thermohydrodynamic Analysis of Cooling

Effect of Supply Oil in Circular Journal Bearing", Transaction of the ASME, vol. 105,

pp.414-421, July 1983.

 J. Mitsui, Y. Hori, and M. Tanaka, "An Experimental Investigation on the

Temperature Distribution in Circular Journal Bearings", Journal of Tribology, vol.108,

pp.621-626, October 1986.

 J. Mitsui, "A Study of Thermohydrodynamic Lubrication in A Circular Bearing",

TRIBOLOGY international, vol. 20, pp.331-441, December 1987.

 J. W. Lund, and P. k. Hansen, "An Approximate Analysis of the Temperature

Conditions in a Journal Bearing. Part 1: Theory", Transaction of the ASME, vol. 106,

pp.228-106, April 1984.

 J. Y. Jang, and M. M. Khonsari, "Design of Bearing on the Basis of

Thermohydrodynamic Analysis", Prose Instn. Mech. Eng. Vol. 218 part J: J Engineering

Tribology, pp.355-363, 2004.

 K. Hatakenaka, and M. Tanaka, "Thermohydrodynamic Performance of Journal

Bearings with Partial Reverse Flow and Finger-Type Cavitation", Prose Instn. Mech.

Eng. Vol. 216 part J: J Engineering Tribology, pp.315-325, 2002.

 Khonsari, M. M.Jang, J. Y., and Fillon, "On the Generalization of Thermodynamic

Analyses for Journal Bearings", Journal of tribology, vol. 118, pp.517-519, 1996

 L. Costa, M. Fillon, A. S. Miranda, and J. C. P. Claro, "An Experimental

Investigation of the Effect of Groove Location and Supply Pressure on the THD

Performance of a Steadily Loaded Journal Bearing", Journal of Tribology, vol. 122,

pp.227-232, January 2000.

 L. Roy "Thermo-hydrodynamic performance of grooved oil journal bearing", Tribology

International, vol. 42, pp. 1187-1198, 2009.

 Ma. M. and Taylor. C. M. , "An Experimental Investigation of Thermal Effects in

Circular and Elliptical Plan Journal Bearings", Tribology International, Vol.29, pp.19-26,

 M. M. Khonsari, and V. Esfahanian, "Thermohydrodynamic Analysis Solid-Liquid

Lubricated Journal Bearing", Journal of Tribology, vol. 110, pp.367-374, April 1988.

 M. M. Khonsari, and H. J. Kim, "On Thermally Induced Seizure in Journal Bearings",

Journal of Tribology, vol. 111, pp.661-666, October 1989

 M. T. Ma and C.M Taylor, "An experimental investigation of thermal effects in circular

and elliptical plain journal bearings", Tribology International,vol.29, No.1, pp.19-26,

M. Fillon and J. Bouyer, " Thermohydrodynamic analysis of a worn plain journal

bearing", Tribology International, vol.37, pp.129-136, 2004.

 Oscar P., and Sargit S., "Adiabatic Solution for Finite Journal Bearing", Transaction of

the ASME, vol. 101, pp.492-496, October 1979.

 Pierre, and M. Fillon, "Influence of Geometric Parameters and Operating Conditions on

the Thermohydrodynamic Behavior of Plain Journal Bearing", Prose Instn. Mech. Eng.

Vol. 214 part J: J Engineering Tribology, pp.445-457, 2000.

 R. Boncompain, M. Fillon, and J.Frene, "Analysis of Thermal Effects in

Hydrodynamic Bearings", Journal of Tribology, vol. 108, pp.219-224, April 1986.

 S. A. Nassab, and M. S. Moayeri, "Three-Dimensional Thermohydrodynamic Analysis

of Axially Grooved Journal Bearings", Prose Instn. Mech. Eng. Vol. 216 part J: J

Engineering Tribology, pp.35-47, 2002.

 Serieg, and S. Dandage, "Empirical Design Procedure for the Thermohydrodynamic

Behavior of Journal Bearings", Journal of Lubrication Technology, vol. 104, pp.135-148,

April 1982.

 T. Suganami, and A. Z. Szeri, "A Parametric Study of Journal Bearing Performance:

The 80 Partial Arc Bearing", Transaction of the ASME, vol. 101, pp.486-491, October

 U. Singh, L. Roy, M. Sahu "Steady state thermo-hydrodynamic analysis of cylindrical

fluid film journal bearing with an axial groove", Tribology International, vol. 41, pp.

-1144, 2008.