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Convective Heat Transfer of an Impinging Diesel Flame in a Rapid Compression Machine
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English
Abstract
The convective heat transfer of a diesel flame impinging on a flat wall has been studied with a rapid compression machine. Heat flux at the wall as well as the temperature and movement of the flame was measured with varying the impinging distance and angle. The result shows that the local flame temperature increases in the radial direction from the stagnation point due to the progress of combustion, while the heat transfer coefficient decreases in the radial direction, and as a result the distribution of the heat flux on the impinging surface becomes almost uniform.
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Citation
Kamimoto, T., Takahashi, H., Kobayashi, H., and Matsuoka, S., "Convective Heat Transfer of an Impinging Diesel Flame in a Rapid Compression Machine," SAE Technical Paper 821035, 1982, https://doi.org/10.4271/821035.Also In
References
- Eicherberg, G. “Some NeVI Investigation on Old Combustion Engine Problem 11, Engineering Nov. 17 1939 547
- Woschini G. “A Universally Applicable Equation for the Instantaneous Heat Transfer Coefficient in the Internal Combustion Engine” SAE paper, NO. 670931 1967
- Kamimoto, T. Matsuoka S. Aoyagi, Y. “A Study om Combustion in a D. I. Diesel Engine - A Thermodynamic Analysis Using Measured Flame Temperature” Trans. JSME 43 No. 373 1977 3465
- Woschini, G. “Die Berechnung der Wandverluste und der thermischen Belastung der Bauteile von Dieselmotoren” MTZ 31 Nr. 12 1970 491
- Tsuge, M. Wakuri, Y. Torii T. Kishishita, K. “On the Prevention of Thermal Damage of Piston Crown in Diesel Engines” JSME preprint, NO. 150 1966 161
- Yoshida, S. Harigaya Y. Nishida S. “Heat Flow at Various Part of Combustion Chamber in a Pre-Chamber Diesel Engine” Trans. JSME, Series B 45 No. 391 1977 416
- Dent J.C. Suliaman, S.J. “Convective and Radiative Heat Transfer in a High Swirl Direct Injection Diesel Engine” SAE paper, NO. 770407 1977
- Kamimoto, T. Kobayashi H. Matsuoka, S. “A Big Size Rapid Compression Machine for Fundamental Studies of Diesel Combustion” SAE papaer, ND.811004 1981
- Ishiki, N. Nishiwaki N. et al. “Heat Transfer by Convection in a Closed Vessel” Trans. JSME 39 No. 328 1973 3760
- Oguri T. Inada, S. “Radiant Heat Transfer in Diesel Engines” SAE paper, NO. 720023 1972
- Ahn, S. K. Matsui, Y. Kamimoto T. Matsuoka, S. “Measurement of Flame Temperature Distribution in Diesel Engines by Means of Image Analysis of High Speed Color Photographs” SAE paper, NO. 810183 1981
- Gardon R. Akfirat, J.C. “Heat Transfer Characteristics of Impinging Two-Dimentional Air Jet,” Jour. of Heat Transfer Feb. 1966 101
- Kamimoto T. Matsuoka, S. “Prediction of Spray Evaporation in Reciprocating Engines” SAE paper, NO. 770413 1977
- Kuniyoshi, H. Yamamoto, H. Fujimoto H. Sato, G. “Investigation on the Characteristics of Diesel Fuel Spray - 3rd report: Impinging upon a Flat Plate” Jour. of the M.E.S.J 15 No. 11 1980 889
- Kamimoto, T. Aoyagi Y. Matsuoka S. “The Effect of Some Engine Variables on Mesured Rates of Air Entrainment and Heat Release in a D.I. Diesel Engine” SAE paper, NO. 800253 1980