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Zero-Dimensional Soot Modeling
ISSN: 0148-7191, e-ISSN: 2688-3627
Published March 03, 2003 by SAE International in United States
Annotation ability available
A zero-dimension model of spray development and particulate emissions for direct-injection combustion was developed. The model describes the major characteristics of the injection plume including: spray angle, liquid penetration, lift-off length, and temperatures of regions within the spray. The model also predicts particulate mass output over a span of combustion cycles, as well as a particulate mass-history over a single combustion event. The model was developed by applying established conceptual models for direct injection combustion to numerical relations, to develop a mathematical description of events. The model was developed in a Matlab Simulink environment to promote modularity and ease of use.
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CitationBayer, J. and Foster, D., "Zero-Dimensional Soot Modeling," SAE Technical Paper 2003-01-1070, 2003, https://doi.org/10.4271/2003-01-1070.
Computer Aided Engineering of Vehicle & Engine Systems & Components
Number: SP-1740 ; Published: 2003-03-03
Number: SP-1740 ; Published: 2003-03-03
- Browner M. C., “Smog and Soot: Updating Air Quality Standars”, Public Health Reports, 112, 366-367, 1997.
- http://www.dieselnet.com/standards/us/hd.html, June 19, 2002.
- Chomiak, Jerzy, Karlsson, Anders, “Flame Liftoff in Diesel Sprays”, 26th International Symposium on Combustion, 1996, p2557-2564.
- Heywood, John B.: Internal Combustion Engine Fundamentals: McGraw-Hill, 1988.
- Naber, Jeffrey and Siebers, Dennis, “Effects of Gas Density and Vaporization on Penetration and Dispersion of Diesel Sprays”, SAE Technical Paper 960034.
- Rietz, R.D. and Bracco, F.B., “On the Dependence of Spray Angle and Other Spray Parameters on Nozzle Design and Operating Condtions”, SAE Technical Paper 790494.
- Siebers, Dennis, “Scaling Liquid-Phase Fuel Penetration in Diesel Sprays Based on Mixing-Limited Vaporization”, SAE Technical Paper 1999-01-0528.
- Siebers, Higgins, “Flame Lift-Off on Direct-Injection Diesel Sprays Under Quiescent Conditions”, SAE Technical Paper 2001-01-0530.
- Dennis Siebers Dr., “Unpublished Notes”, Sandias National Laboratory, 2002.
- Peters, Norbert: Turbulent Combustion: Cambridge University Press, 2000
- Flynn, Russell, Durrett, Hunter, Loye,Akinyemi, Dec, Westbrook, “Diesel Combustion: An Integrated View Combining Laser Diagnositcs, Chemical Kinetics, And Empirical Validation”, SAE Technical Paper 1999-01-0509.
- Dec, John E., “A Conceptual Model of DI Diesel Combustion Based on Laser-Sheet Imaging” SAE Technical Paper 970873.
- Khan, I.M., “Method for Calculating the Formation and Combustion of Soot in Diesel Engines”, Heat Transfer in Flames, Afgan, N. H and Beer, J.M., Eds., Scripta, Washington, DC, 1974.
- Pitch, H., Wan, Y.P., Peters, N., “Numerical Investigation of Soot formation and Oxidation under Diesel Engine Conditions”, SAE Technical Paper 952357.
- Kazakov, Andrie and Foster, David E., “Modeling of Soot formation During DI Diesel Combustion Using A Multi-Step Phenomenological Model” SAE Technical Paper 982463
- Hiroyasu and Kadota, “Models for Combustion and Formation of Nitric Oxide and Soot in Direct Injection Diesel Engines”, SAE Technical Paper 760129.
- Patterson, Kong, Hampson, and Reitz, “Modeling the Effects of Fuel Injection Characteristics on Diesel Engine Soot and NOx Emissions” SAE Technical Paper 940523.
- Kuo, Kenneth K., Principles of Combustion: Wiley-Interscience Publications, 1986.
- Struwe, Frank, “In-Cylinder Measurement of Particulate Radiant HeatTransfer In a Direct Injection Diesel Engine” M.S. Thesis, University of Wisconsin-Madison, 2002.
- Kweon, Foster, Schauer and Okada, “Detailed Chemical Composition and Particle Size Assessment of Diesel Engine Exhaust” SAE Technical Paper, (ref. number to be assigned.), 2002.