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대형 디젤엔진 내구 시험에 의한 다른 종류 엔진오일의 물성 및 성능 특성에 관한 연구

A Study on the Property and Performance Characteristics of Different Kind Engine Oil by Endurance Test of Heavy-duty Diesel Engine

  • 이민호 (한국석유관리원 석유기술연구소) ;
  • 김정환 (한국석유관리원 석유기술연구소) ;
  • 송호영 (한국석유관리원 석유기술연구소) ;
  • 김기호 (한국석유관리원 석유기술연구소) ;
  • 하종한 (한국석유관리원 석유기술연구소)
  • Lee, Minho (Korea Petroleum Quality & Distribution Authority) ;
  • Kim, Jeonghwan (Korea Petroleum Quality & Distribution Authority) ;
  • Song, Hoyoung (Korea Petroleum Quality & Distribution Authority) ;
  • Kim, Giho (Korea Petroleum Quality & Distribution Authority) ;
  • Ha, Jonghan (Korea Petroleum Quality & Distribution Authority)
  • 투고 : 2014.02.21
  • 심사 : 2014.06.10
  • 발행 : 2014.11.01

초록

Engine oil is an oil used for lubrication of various internal combustion engines. The main function is to reduce wear on moving parts; it also cleans, inhibits corrosion, improves sealing, and cools the engine by carrying heat away from moving parts. In engines, there are parts which move against each other. Otherwise, the friction wastes the useful power by converting the kinetic energy to heat. Those parts were worn away, which could lead to lower efficiency and degradation of the engine. It increases fuel consumption, decreases power output, and can induce the engine failure. This study was conducted to evaluate the relation between engine oil property changes and engine performance for the diesel engine. This test was performed by using 12L, 6 cylinder, heavy duty engines. Low SAPS 10W30 engine oil (two type engine oils) was used. Test procedure and method was in accordance with the modified CEC L-57-T97 (OM441LA) method. In this study, TAN, TBN, KV and metal components, engine power, blowby gas, A_F were presented to evaluate the relation with engine oil property changes and engine performance. TAN, TBN, KV and metal We found that the components were generally increased but engine performance did not change. This results mean that property changes did not affect on engine performance because those were not enough to affect engine performance.

키워드

참고문헌

  1. B. S. Anderson, "Company Perspectives in Vehicle Tribology-Volvo," 17th Leeds-Lyon Symposium on Tribology-vehicle Tribology, Tribology Series 18, pp.503-506, 1991.
  2. W. H. Buck and J. R. Lohuis, "Lubricant Effects on Low Temperature Diesel Engine Cold Starting," SAE 940097, 1994.
  3. N. Shibuya, K. Onogawa, Y. Akasaka, O. Mochida and H. Watanabe, "Development of a Low Friction Piston with a New Flexible Skirt Structure for a 3.5-L V6 Gasoline Engine," SAE 2002-01-0491, 2002.
  4. C. De Petris, V. Giglio and G. Police, "Some Insights on Mechanism of Oil consumption," SAE 961216, 1996.
  5. S. C. Jang and K. I. Ho, "A Study of the Property Changes of Oil Used in Diesel Engine," Transactions of KSAE, Vol.4, No.1, pp.1-15, 1996.
  6. Y. J. Lee, G. C. Kim, O. S. Kwon, C. J. Koh and K. S. Shim, "Study on the Automotive Engine Oil Degradation with Increased Trip Length," KSAE Annual Conference Proceedings, pp.353-359, 1999.
  7. T. Park and B. Song, "An Experimental Study of Characteristic Variation of Diluted Oil by Diesel Fuel and Effects of Diluted Oil on Engine Components," KSAE Annual Conference Proceedings, pp.254-259, 2004.
  8. D. Choi, S. Eom, Y. Park, J. Lee and G. Yong, " Effect of Blow-by Gas Ventilation System on Degradation of Engine Oil," KSAE Annual Conference Proceedings, pp.499-504, 2004.
  9. K. Jeon and S. Kim, "A Study on Engine Wear by Lubricants Aging Characteristics," KSAE Annual Conference Proceedings, pp.605-611, 2011.
  10. KS M 2014, Testing Methods for Kinematic Viscosity and Calculating Method for Viscosity Index of Crude Oil and Petroleum Products, 2009.
  11. KS M ISO 2014, Petroleum Products and Lubricants-Neutralization Number-Potentiometric Titration Method, 2013.
  12. ISO/TC 108/SC 5N 157, Mechanical Vibration, Shock and Condition Monitoring, 2000.