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Heat Transfer Rates at Gas-Wall Interfaces in Motored Piston Engine
ISSN: 0148-7191, e-ISSN: 2688-3627
Published February 01, 1973 by SAE International in United States
Annotation ability available
Event: Fleet Week
Instantaneous heat transfer rates at the interface of the working gas and the walls of a motored engine were studied. This paper details the influence on heat fluxes of engine speed, compression ratio, intake pressure, swirl ratio, location on the cylinder head surface, and the shape of the piston top. Equations are given to show the method of calculation used in deriving the data on heat transfer rates.
CitationDao, K., Uyehara, O., and Myers, P., "Heat Transfer Rates at Gas-Wall Interfaces in Motored Piston Engine," SAE Technical Paper 730632, 1973, https://doi.org/10.4271/730632.
- Eichelberg G. “Some New Investigation on Old Combustion Engine Problems.” Engineering 198 1939 463
- Annand W. J. D. “Heat Transfer in the Cylinder of Reciprocating Internal Combustion Engines.” Proc. Inst. Engrs. 177 1963 36 973
- LeFeuvre T. “Instantaneous Metal Temperatures and Heat Fluxes in a Diesel Engine.” Mechanical Engineering Dept. University of Wisconsin 1968
- Overbye V. D. “Variation of Instantaneous Wall Temperature Heat Transfer, and Heat Transfer Coefficients in a Spark Ignition Engine.” Mechanical Engineering Dept. University of Wisconsin 1960
- Oguri T. “Theory of Heat Transfer in the Working Gases of Internal Combustion Engines.” Bulletin of Japanese Soc. Mech. Eng. 3 1960 11 370
- Wendland P. W. “The Effect of Pressure and Temperature Fluctuations on Unsteady Heat Transfer in a Closed System.” Mechanical Engineering Dept. University of Wisconsin 1968
- Tye R. P. “Thermal Conductivity.” Cambridge: Dynatech Corp. 2 1966 147
- Willis D. A. et al. “Mapping of Air Flow Patterns in Engines With Induction Swirl.” SAE Transactions 75 1967 paper 660093
- Keenan Kaye “Gas Tables.” New York John Wiley & Sons 1963
- Dao K. “Heat and Transfer with Cyclic Pressure Variations in Piston Engines.” Mechanical Engineering Dept. University of Wisconsin 1972
- Moore F. K. “Theory of Laminar Flow.” Princeton University Press 1964 140