ANALYSIS OF FLOW AND TEMPERATURE DISTRIBUTION IN JOURNAL BEARING LUBRICATED WITH VEGETABLE OIL

Authors

  • Muhamad Afiq Najmi Mahyuddin Faculty of Mechanical Engineering, Universiti Teknologi Malaysia, 81310 UTM Johor Bahru Johor, Malaysia
  • Muhammad Noor Afiq Witri Muhammad Yazid Faculty of Mechanical Engineering, Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor, Malaysia

DOI:

https://doi.org/10.11113/jtse.v10.189

Keywords:

Computational Fluid Dynamics, Hydrodynamic Journal Bearing, Coefficient of Friction, Load Carrying Capacity, Vegetable Oil

Abstract

The use of vegetable oil as a sustainable alternative to mineral oil in lubrication applications has garnered considerable attention. This research focuses on evaluating three different vegetable oils, namely palm mid olein (PMO), refined bleached deodorized palm oil (RBDPO), and rapeseed oil, for their effectiveness in lubricating a hydrodynamic journal bearing. The study examines key performance factors such as pressure, temperature, load-carrying capacity, and coefficient of friction. Computational fluid dynamics (CFD) is employed to compare the lubricating capabilities of the vegetable oils against engine oil. Rapeseed oil emerges as the most promising option among the vegetable oils, displaying notable advantages. It demonstrates a 22.12% higher pressure, 26.37% higher load-carrying capacity, and 0.37% higher temperature distribution compared to PMO. In contrast, while engine oil exhibits a 16.67% higher pressure distribution and 35.8% higher load-carrying capacity, it also comes with a drawback of 44.29% higher coefficient of friction compared to other vegetable oils. It is worth noting that the simulation results have been validated through experimental data, leading to the conclusion that engine oil surpasses vegetable oils in terms of pressure and temperature distribution.

References

Juvinall, R. C., & Marshek, K. M. (2012). Lubrication and Sliding Bearings. In Fundamentals of machine component design (5th Edition, pp. 379–411). John Wiley & Sons.

Michael M. Khonsari, & E. Richard Booser. (2017). Applied Tribology: Bearing Design and Lubrication, 3rd Edition (Wiley John, Ed.; 3rd Edition). John Wiley & Sons Ltd.

Zulhanafi, P., Syahrullail, S., Abdul, H. M. K., & Chong, W. W. F. (2021). The effect of saturated and unsaturated fatty acid composition in bio-based lubricant to the tribological performances using four-ball tribotester. Journal of Oil Palm Research, 33(4), 653–667.

Khasbage, S., Patil, V. and Dhande, D. (2016). Performance of Jatropha Biolubricant for Hydrodynamic Journal Bearing Lubrication. International Research Journal of Engineering and Technology (IRJET), 3(07).

Baskar, S. and Sriram, G. (2012). Experimental analysis of hydrodynamic journal bearing under different biolubricants. In IEEE-International Conference On Advances In Engineering, Science And Management (ICAESM-2012) (pp. 132-135). IEEE.

Patel, M. B., Patolia, H. P., & Brahmbhatt, K. B. (2021). Comparative Study of Performance of Hydrodynamic Journal Bearing with a Bio-Lubricant and ISOVG 100. In Psychology and Education, 58(1).

Zuraidah Rasep, Syahrullail Samion, & Muhammad Noor Afiq Witri Muhammad Yazid. (2021). A study of cavitation effect in a journal bearing using CFD: A case study of engineoil, palm oil and water. Jurnal Tribologi, 28, 48–62.

Li, Q., Zhang, S., Wang, Y., Xu, W. W., & Wang, Z. (2019). Investigations of the three-dimensional temperature field of journal bearings considering conjugate heat transfer and cavitation. Industrial Lubrication and Tribology, 71(1), 109–118.

Dhande, D. Y., & Pande, D. W. (2018). Multiphase flow analysis of hydrodynamic journal bearing using CFD coupled Fluid-Structure Interaction considering cavitation. Journal of King Saud University - Engineering Sciences, 30(4), 345–354.

ANSYS Fluent Theory Guide Release 18.0 (2017). ANSYS, Inc. USA.

Zulhanafi, P., Syahrullail, S., & Ahmad, M. A. (2020). The tribological performance of hydrodynamic journal bearing using bio-based lubricant. Tribology in Industry, 42(2), 278–287.

Asral. (2015). High amplitude wave liner effects on journal bearing performance. PhD Thesis. Universiti Teknologi Malaysia.

Zulhanafi, P. (2021). Tribological Performances of Journal Bearing Using Palm Oil Based Lubricant. PhD Thesis. Universiti Teknologi Malaysia.

Zongo, A. S., Vaïtilingom, G., Daho, T., Caillol, C., Hoffmann, J.-F., Piriou, B., Valette, J., Segda, B. G., & Higelin, P. (2019). Temperature dependence of density, viscosity, thermal conductivity and heat capacity of vegetable oils for their use as biofuel in internal combustion engines. Advances in Chemical Engineering and Science, 09(01), 44–64.

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

Tauviqirrahman, M., Pratama, A., Jamari, & Muchammad. (2019). Hydrodynamic lubrication of textured journal bearing considering slippage: Two-dimensional CFD analysis using multiphase cavitation model. Tribology in Industry, 41(3), 401–415.

Hilmy, F., Muchammad, M., Tauviqirrahman, M., & Jamari, J. (2018). Inertia effect of textured lubricated contact on the bearing performance using CFD approach. Journal of Physics: Conference Series.

Murata, S., Tanaka, F., & Tokunaga, J. (1993). Measurement of vapor pressure of a series of edible oils. Journal of the Faculty of Agriculture, Kyushu University, 38(1/2), 9–18.

Sadiq, M. I., Ghopa, W. A., Nuawi, M. Z., Rasani, M. R., & Ibrahim, S. (2022). An Experimental Investigation of Static Properties of Bio-Oils and SAE40 Oil in Journal Bearing Applications. Materials, 15(6) 2247.

Downloads

Published

2023-07-03

How to Cite

Mahyuddin, M. A. N., & Muhammad Yazid, M. N. A. W. (2023). ANALYSIS OF FLOW AND TEMPERATURE DISTRIBUTION IN JOURNAL BEARING LUBRICATED WITH VEGETABLE OIL. Journal of Transport System Engineering, 10(1), 47–53. https://doi.org/10.11113/jtse.v10.189

Issue

Section

Transport System Engineering

Similar Articles

<< < 1 2 3 4 5 

You may also start an advanced similarity search for this article.