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The phenomenological characterization of the liquid phase penetration on the diesel spray through the combustion chamber is very important to prevent and to reduce the pollution emission on the heavy duty Diesel engines as well as new combustion chambers design, for this reason, this work has concentrated on the characterization of the macroscopic behavior of the liquid phase penetration of diesel spray. The main purpose of this research is to define the influence of the nozzle hole diameter, injection pressure, gas density and temperature in diesel spray penetration on evaporating conditions. The results show that the nozzle hole diameter and thermodynamics properties as the gas density and temperature have a significant effect on the liquid phase penetration, while the injection pressure has no significant effect on the maximum liquid phase penetration. Schematic diagrams and main components of the equipment, experimental layout for imaging tests, instantaneous spray images, example of the liquid phase penetration for different nozzle holes, injection pressures, different gas density and temperature are presented in the paper.
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Wydawca
Czasopismo
Rocznik
Tom
Strony
291--304
Opis fizyczny
Bibliogr. 14 poz., rys.
Twórcy
autor
autor
autor
- Universidad Autónoma de Nuevo León Facultad de Ingeniería Mecánica y Eléctrica Pedro de Alba s/n, 66450 San Nicolás de los Garza, N. L., México tel.:+52 81 14920362, fax: +52(81)83320904, simartin@gama.fime.uanl.mx
Bibliografia
- [1] Araneo, L., Prediction of Diesel Spray Penetration with Short Injections in Low Density Gas Proceedings of Conference on Thermo- and Fluid-Dynamic Processes in Diesel Engines, THIESEL, Spain 2004.
- [2] Bermúdez, V. García, J. M., Juliá, E. Martínez, S., Engine with Optically Accessible Cylinder Head: a Research Tool for Injection and Combustion Processes, SAE Paper 2003-01-1110, Detroit 2003.
- [3] Christoph, E. and Dec, J. E., The effect of TDC Temperature and Density on the Liquid-Phase Fuel Penetration in a D. I. Diesel Engine, SAE Paper 952456, Toronto 1995.
- [4] Dent, J. C., A Basis for the Comparison of Various Experimental Methods for Studying Spray Penetration, SAE Transaction, Vol. 80 (1971), SAE Paper 710571, Detroit 1971.
- [5] Desantes, J. M., Pastor, J. M., Martínez, S. and Riesco, J. M., Experimental Characterization of the Liquid Phase Penetration on Evaporating Diesel Sprays, SAE Paper 2005-01-2095, Brasil 2005.
- [6] Hiroyasu, A. and Arai, M., Structures of Fuel Sprays in Diesel Engine, SAE Paper 900475, Detroit 1990.
- [7] Hodges, J. T., Baritaud, T. A. and Heinze, T. A. Planar liquid and gas fuel and droplet size visualization in a DI Diesel engine, SAE Paper 910726, Detroit 1991.
- [8] Kamimoto, T., Yokota, H., and Kobayashi, H., Effect or High Pressure Injection on Soot Formation Processes in a Rapid Compression Machine to Simulate Diesel Flames, Transactions of the SAE, Vol. 96, Sect. 4, pp. 4783-4791, Detroit 1987.
- [9] Martínez, S., Development of an Experimental Set-up for Study of the Evaporated Diesel Sprays on Inert and Reactive Atmosphere, PhD Theses, UPV, Spain 2003.
- [10] Naber, J. D. and Siebers, D. L., Effect of Gas Density and vaporization on Penetration and Dispersion of Diesel Spray, SAE Paper 960034, Detroit 1999.
- [11] Pastor, J. V., Arrègle, J., Palomares, A., Diesel Spray Image Segmentation with a Likelihood Ratio Test, Applied Optics 40, 1-10, UK 2001.
- [12] Pauer, T., Wirth, R. and Brüggemann, D., Time resolved Analysis of Mixture Preparation and Ignition by Combined Optical Measurement Techniques for DI-Diesel Injection Nozzle in a High Pressure- / High Temperature Chamber, AVL 4th. International Symposium on Internal Combustion Diagnostics, Baden-Baden 2000.
- [13] Payri, F., Desantes, J. M. and Arrégle, J., Characterization of D.I. Diesel Sprays in High Density Conditions, SAE Paper 960774, Detroit 1996.
- [14] Siebers, D.L., Liquid-Phase Fuel Penetration in Diesel Sprays”, SAE Transactions, Vol. 107, Sec. 3, pp. 1205-1227, SAE Paper 980809, Detroit 1998.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUJ5-0019-0021