Study on soot formation characteristics in the diesel combustion process based on an improved detailed soot model

Energy Conversion and Management

Volumn 75, Issue , 2013, Pages 1-10

  Cheng, Xiaobei ^a   Chen, Liang ^a   Yan, Fangqin ^a   Dong, Shijun ^a  

^a HUAZHONG UNIVERSITY OF SCIENCE AND TECHNOLOGY   (China)

Author keywords

2 Dimensional transient distribution of soot concentration; Detailed soot model; Particle number concentration; Particle size; Single cylinder diesel engine

Indexed keywords

DIESEL COMBUSTION PROCESS; HEAT RELEASE RATE (HRR); NUMERICAL INVESTIGATIONS; PARTICLE NUMBER CONCENTRATION; POLYCYCLIC AROMATIC HYDROCARBONS (PAHS); SINGLE-CYLINDER DIESEL ENGINE; SOOT CONCENTRATION; SOOT MODEL;

COMBUSTION; COMPUTER SIMULATION; DEPOSITION; DIESEL ENGINES; DUST; ENGINE CYLINDERS; ENGINES; HEPTANE; ISOMERS; PARTICLE SIZE; PARTICLE SIZE ANALYSIS; POLYCYCLIC AROMATIC HYDROCARBONS;

SOOT;

EID: 84879469612     PISSN: 01968904     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.enconman.2013.05.033     Document Type: Article

References (35)

1. R.T. Dale, and I.S. Kenth Soot processes in compression ignition engines Prog Energy Combust Sci 33 3 2007 272 309
2. D.I. Kolaitis, and M.A. Founti On the assumption of using n-heptane as a "surrogate fuel" for the description of the cool flame oxidation of diesel oil Proc Combust Inst 32 2 2009 3197 3205
3. C. He, Y. Ge, and J. Tan Characteristics of polycyclic aromatic hydrocarbons emissions of diesel engine fueled with biodiesel and diesel Fuel 89 8 2010 2040 2046
4. A. Raj, M. Celnik, and R. Shirley A statistical approach to develop a detailed soot growth model using PAH characteristics Combust Flame 156 2009 896 913
5. K.M. Pang, H.K. Ng, and S. Gan Simulation of temporal and spatial soot evolution in an automotive diesel engine using the Moss-Brookes soot model Energy Convers Manage 58 2012 171 184
6. Fredriksson J, Bergman M, Golovitchev VI et al. Modeling the effect of injection schedule change on free piston engine operation. Society of Automotive Engineers, SAE paper no. 2006-01-0449; 2006.
7. H. Hiroyasu, T. Kadota, and M. Arai Development and use of spray combustion modeling to predict diesel engine efficiency and pollutions emissions (Part I combustion modeling) Bull JSME 26 1983 569 575 (Pubitemid 13559277)
8. Fusco A, Knox-Kelecy AL, Foster D. Application of a phenomenological soot model to diesel engine combustion. In: International symposium COMODIA; 1994. p. 571-6
9. Kazakov A, Foster DE. Modeling of soot formation during DI diesel combustion using a multi-step phenomenological model. Society of Automotive Engineers, SAE paper no. 982463; 1998.
10. H. Wang, and M. Frenklach A detailed kinetic modeling study of aromatics formation in laminar premixed acetylene and ethylene flames Combust Flame 110 1-2 1997 173 221 (Pubitemid 27273036)
11. P.A. Vlasov, and J. Warnatz Detailed kinetic modeling of soot formation in hydrocarbon pyrolysis behind shock waves Proc Combust Inst 29 2002 2335 2341
12. G.L. Agafonov, I. Naydenova, and P.A. Vlasov Detailed kinetic modeling of soot formation in shock tube pyrolysis and oxidation of toluene and n-heptane Proc Combust Inst 31 2007 575 583 (Pubitemid 47424430)
13. M. Frenklach, D.W. Clary, and W.C. Gardiner Jr. Detailed kinetic modeling of soot formation in shock-tube pyrolysis of acetylene Symp (Int) Combust 20 1 1985 887 901
14. M. Frenklach, and H. Wang Detailed mechanism and modeling of soot particle formation Springer Ser Chem Phys 59 1994 165 192
15. F. Tao, R.D. Reitz, and D.E. Foster Nine-step phenomenological diesel soot model validated over a wide range of engine conditions Int J Therm Sci 48 6 2009 1223 1234
16. Golovitchev VI, Calik AT, Montorsi L. Analysis of combustion regimes in compression ignited engines using parametric u-T dynamic maps. Society of Automotive Engineers, SAE paper no. 2007-01-1838; 2007.
17. W.M. Chen, S.J. Shuai, and J.X. Wang A soot formation embedded reduced reaction mechanism for diesel surrogate fuel Fuel 88 10 2009 1927 1936
18. A.V. Krestinin Polyyne model of soot formation process Symp (Int) Combust 27 1 1998 1557 1563
19. P.Q. Tan, Z.Y. Hu, and K.Y. Deng Particulate matter emission modelling based on soot and SOF from direct injection diesel engines Energy Convers Manage 48 2 2012 510 518 (Pubitemid 46027312)
20. Nagle J, Strickland-Constable RF. Oxidation of carbon between 1000-2000 C. In: Proc 5th carbon conference, vol. 1; 1962. p. 154-64.
21. K.G. Neoh, J.B. Howard, and A.F. Sarofim Soot oxidation in flames 1981 Plenum New York (USA) p. 261-77
22. F. Mauss, T. Schäfer, and H. Bockhorn Inception and growth of soot particles in dependence on the surrounding gas phase Combust Flame 99 3-4 1994 697 705
23. Q. Zhang, H. Guo, and F. Liu Modeling of soot aggregate formation and size distribution in a laminar ethylene/air coflow diffusion flame with detailed PAH chemistry and an advanced sectional aerosol dynamics model Proc Combust Inst 32 1 2009 761 768
24. Cheng XB, Jv HL, Wang ZW. A numerical modeling and experimental study on soot formation for a direct injection diesel engine. Society of Automotive Engineers, SAE paper no. 2008-01-1794; 2008.
25. Rutland CJ, Ayoub N, Han Z et al. Diesel engine model development and experiments. Society of Automotive Engineers, SAE Paper no. 951200; 1995.
26. Tennison PJ, Georjon TL, Farrell PV et al. An experimental and numerical study from a common rail injection system for use in an HSDI diesel engine. Society of Automotive Engineers, SAE Paper no. 980810; 1998.
27. Z. Han, and R.D. Reitz Turbulence modeling of internal combustion engines using RNG k-ε models J Combust Sci Technol 106 1995 267 295
28. R.D. Reitz Modeling atomization process in high-pressure vaporizing sprays J Atomization Spray Technol 3 1987 309 337
29. Singh S, Reitz RD, Musculus MPB. Comparison of the characteristic time (CTC), representative interactive flamelet (RIF), and direct integration with detailed chemistry combustion models against optical diagnostic data for multi-mode combustion in a heavy-duty DI diesel engine. Society of Automotive Engineers, SAE Paper no. 2006-01-0055; 2006.
30. Musculus MPB. On the correlation between NOx emissions and the diesel premixed burn. Society of Automotive Engineers, SAE Paper no. 2004-01-1401; 2004.
31. Musculus MPB. Measurements of the influence of soot radiation on in-cylinder temperatures and exhaust NOx in a heavy-duty diesel engine. Society of Automotive Engineers, SAE paper no. 2005-01-0925; 2005.
32. M.P.B. Musculus, S. Singh, and R.D. Reitz Gradient effects on two-color soot optical pyrometry in a heavy-duty DI diesel engine Combust Flame 153 1-2 2008 216 227
33. C.R. Ferguson, D.R. Tree, and D.P. DeWitt Design, calibration and error analysis of instrumentation for heat transfer measurements in internal combustion engines Dev Exp Tech Heat Transfer Combust 71 1987 67 82 (Pubitemid 17628113)
34. J.J. Murphy, and C.R. Shaddix Influence of scattering and probe-volume heterogeneity on soot measurements using optical pyrometry Combust Flame 143 1-2 2005 1 10 (Pubitemid 41341380)
35. G. Tea, G. Bruneaux, and J.T. Kashdan Unburned gas temperature measurements in a surrogate diesel jet via two-color toluene-LIF imaging Proc Combust Inst 33 1 2011 783 790