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TECHNICAL PAPERS: Internal Combustion Engines

Experimental Investigation of Oil Accumulation in Second Land of Internal Combustion Engines

[+] Author and Article Information
T. Icoz, Z. Dursunkaya

Mechanical Engineering Department, Middle East Technical University, 06531 Ankara, Turkey

J. Eng. Gas Turbines Power 127(1), 206-212 (Feb 09, 2005) (7 pages) doi:10.1115/1.1805011 History: Received April 24, 2003; Revised December 16, 2003; Online February 09, 2005
Copyright © 2005 by ASME
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References

Hanaoka, M., Ise, A., Nagasaka, N., Osawa, H., Arakawa, Y., and Obata, T., 1979, “New Method for Measurement of Engine Oil Consumption (S-Trace Method),” SAE Paper No. 790936.
Wahiduzzaman, S., Keribar, R., Dursunkaya, Z., and Kelley, F. A., 1992, “A Model for Evaporative Consumption of Lubricating Oil in Reciprocating Engines,” SAE Paper No. 922202.
Hewitt, G. F., and Hall-Taylor, N. S., 1970, Annular Two-Phase Flow, Pergamon Press, New York, pp. 136–142.
Ishii,  M., and Grolmes,  M. A., 1975, “Inception Criteria for Droplet Entrainment in Two-Phase Concurrent Film Flow,” AIChE J., 21, pp. 308–318.
Ishii,  M., and Mishima,  K., 1989, “Droplet Entrainment Correlation in Annular Two-Phase Flow,” Int. J. Heat Mass Transfer, 32, pp. 1835–1846.
Miyachika, M., Hirota, T., and Kashiyama, K., 1984, “A Consideration on Piston Second Land Pressure and Oil Consumption of Internal Combustion Engines,” SAE Paper No. 840099.
Kim,  C. G., Bae,  C. S., and Choi,  S. M., 2000, “Importance of Inter-Ring Crevice Volume as a Source of Unburned Hydrocarbon Emissions-Numerical Considerations,” J. Automobile Eng.,214, pp. 395–403.
Kuo, T. W., Sellnau, M. C., Theobald, M. A., and Jones, J. D., 1989, “Calculation of Flow in the Piston-Cylinder-Ring Crevices of a Homogeneous Charge Engine and Comparison With Experiment,” SAE Paper No. 890838.
Nakashima, K., Ishihara, S., Urano, K., and Murata, K., 1996, “Lubricating Oil Flow Into the Combustion Chamber and its Reduction Method in an Automobile Gasoline Engine,” SAE Paper No. 962034.
Nakashima, K., Ishihara, S., and Urano, K., 1995, “Influence of Piston Ring Gaps on Lubricating Oil Flow Into the Combustion Chamber,” SAE Paper No. 952546.
Dursunkaya, Z., Keribar, R., and Richardson, D. E., 1993, “Experimental and Numerical Investigation of Inter-Ring Gas Pressures and Blowby in a Diesel Engine,” SAE Paper No. 930792.
Saito, K., Igashira, T., and Nakada, M., 1989, “Analysis of Oil Consumption by Observing Oil Behavior Around Piston Ring Using a Glass Cylinder Engine,” SAE Paper No. 892107.
Wong, V. W., and Hoult, D. P., 1991, “Experimental Survey of Lubricant Film Characteristics and Oil Consumption in a Small Diesel Engine,” SAE Paper No. 910741.
Kokdemir, H. G., 1970, “Mechanical Valve Operated Shock Tube,” M.S. thesis, Mechanical Engineering Department, Middle East Technical University, pp. 25–38; 71–73.
Iizumi, S., and Koyama, T., 1986, “Measurement of Oil Consumption of Diesel Engine by S-Trace Method,” SAE Paper No. 860545.

Figures

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Cyclic pressure variations given by Dursunkaya et al. 11: (a) cylinder; (b) second land
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Mechanism of blowback oil consumption
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Schematic of experimental setup
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Schematic of geometric transformation
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Modeled piston cylinder assembly
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Sudden expansion mechanical valve
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Experimental pressure variation: (a) pressurization chamber and sampling chamber; (b) pressure ratio
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Oil accumulation into the second land
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Oil consumption rates in a diesel engine measured by Iizumi and Koyama 15
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Effect of oil film thickness on projected non-evaporative oil consumption

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