A model for the injection boundary conditions in the context of 3D simulation of Diesel Spray: Methodology and validation

Fuel

Volumn 89, Issue 1, 2010, Pages 219-228

  Martinez, Lionel ^a   Benkenida, Adlène ^a   Cuenot, Bénédicte ^b  

^a IFP ENERGIES NOUVELLES   (France)

^b CERFACS   (France)

Author keywords

Boundary condition; Diesel injection; Large Eddy Simulation (LES); Modelling; Spray

Indexed keywords

3D SIMULATIONS; AXIAL MOMENTUM; BREAK-UP; DIESEL INJECTION; DIESEL SPRAY; DROPLET DIAMETERS; EULERIAN-EULERIAN; INJECTION VELOCITY; LARGE EDDY SIMULATION (LES); MODELLING; NOZZLE EXITS; REYNOLDS AVERAGE NAVIER-STOKES; SPRAY; SPRAY ANGLE; TURBULENT BOUNDARY; VELOCITY FLUCTUATIONS; VELOCITY PROFILES;

BOUNDARY CONDITIONS; LARGE EDDY SIMULATION; NAVIER STOKES EQUATIONS; NOZZLES; THREE DIMENSIONAL; THREE DIMENSIONAL COMPUTER GRAPHICS; VELOCITY;

SIMULATORS;

EID: 70349452115     PISSN: 00162361     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.fuel.2009.06.012     Document Type: Article

References (36)

1. Ryan TW, Callahan TJ. Homogeneous Charge Compression Ignition (HCCI) of diesel fuel. SAE 961160, 1996.
2. Lu X.C., Chen W., and Huang Z. A fundamental study on the control of the HCCI combustion and emissions by fuel design concept combined with controllable EGR: Part 1. The basic characteristic of HCCI combustion. Fuel 84 (2005) 1074-1083
3. Ozdor N, Dulger M, Sher E. Cyclic variability in spark ignition engines. A literature survey. SAE 950683, 1994.
4. Launder B.E., and Spalding D.B. Mathematical models of turbulence (1972), Academic Press
5. Drake MC, Haworth D. Advanced gasoline engine development using optical diagnostic and numerical modeling. In: Proceedings of the 31st symposium (int) on combustion. The Combustion Institute; 2007.
6. Sagaut P. Large Eddy Simulation for incompressible flows. Scientific computation series (2000), Springer-Verlag
7. Selle L., Benoit L., Poinsot T., Nicoud F., and Krebs W. Joint use of Compressible Large-Eddy Simulation and Helmoltz solvers for the analysis of rotating modes in an industrial swirled burner. Combust Flame 145 (2006) 194-205
8. Schmitt P., Poinsot T.J., Schuermans B., and Geigle K. Large-eddy simulation and experimental study of heat transfer, nitric oxide emissions and combustion instability in a swirled turbulent high pressure burner. J Fluid Mech 570 (2007) 17-46
9. Richard S, Colin O, Vermorel O, Benkenida A, Angelberger C, Veynante D. Towards large eddy simulation of combustion in spark ignition engines. In: Proc of the Combustion Institute, 2007. p. 31.
10. Vermorel O, Richard S, Colin O, Angelberger C, Benkenida A. Multi-cycle LES simulations of flow and combustion in a PFI SI 4-valve production engine. SAE PAPER 2007-01-0151, 2007.
11. Abraham J. What is adequate resolution in the numerical computations of transient jets?. Trans SAE 106 (1997) 141-155
12. Iyer V., and Abraham J. Penetration and dispersion of transient gas jets and sprays. Combust Sci Technol 130 (1997) 315-335
13. Subramaniam S, O'Rourke P. Numerical convergence of the KIVA-3 code for sprays and its implications for modeling. Los Alamos Lab. Rep. UR-98-5465, Los Alamos, NM, 1998.
14. Blessing M, Knig G, Krnger C, Michels U, Schwarz V. Analysis of flow and cavitation phenomena in diesel injection Nozzles and its effects on spray and mixture formation. SAE 2003-01-1358, 2003.
15. Hiroyasu H. Spray break-up mechanism from the hole-type nozzle and its applications. Atomiz Sprays 10 (2000) 511-527
16. Sou A., Hosokawa S., and Tomiyama A. Effects of cavitation in a nozzle on a liquid jet atomization. Int J Heat Mass Transfer 50 (2007) 3575-3582
17. Habchi C., Dumont N., and Simonin O. Multidimensional simulation of cavitating flows in diesel injectors by a homogeneous mixture modeling approach. Atomiz Sprays 18 (2008) 129-162
18. Smallwood G., and Gulder O. Views on the structure of transient diesel sprays. Atomiz Sprays 10 (2000) 355-386
19. Soteriou C, Andrews R, Smith M. Direct injection diesel sprays and the effect of cavitation and hydraulic flip on atomization. SAE 950080, 1995.
20. Ueki H, Ishida D, Naganuma M. Simultaneous measurements of velocity and size of diesel fuel near nozzle orifice by laser 2-focus velocimeter with micro-scale probe volume. In: THIESEL 2004 conference on thermo- and fluid dynamic processes in diesel engines, 2004.
21. Yue Y., Powell C.F., Poola R., Wang J., and Schaller J.K. Quantitative measurements of diesel fuel spray characteristics in the near-nozzle region using X-ray absorption. Atomiz Sprays 11 (2001) 471-490
22. Tanner F.X., Feigl K.A., Ciatti S.A., et al. Structure of high-velocity dense sprays in the near-nozzle region. Atomiz Sprays 16 (2006) 579-597
23. Sarre C, Kong SC, Reitz RD. Modeling the effects of injector nozzle geometry on diesel sprays. SAE PAPER 1999-01-0912, 1999.
24. Nurick W.H. Orifice cavitation and its effect on spray mixing. J Fluids Eng 98 (1976) 681-687
25. Benedict R.P. Fundamentals of pipe flows (1980), Wiley, New York
26. Nishimura A, Assanis DN. A model for primary diesel fuel atomization based on cavitation bubble collapse energy in ICLASS2000 (Pasadena, CA), 2000.
27. Huh KY, Gosman AD. A phenomenological model for diesel spray. Atomization international conference on multiphase flows'91, 1991.
28. O'Rourke PJ, Amsden AA. The tab method for numerical calculation of spray droplet breakup. SAE 872089, 1987.
29. Chaves H., Kirmse C., and Obermeier F. Velocity measurement of dense diesel fuel sprays in dense air. Atomiz Sprays 14 (2004) 589-609
30. Martinez L, Vié A, Jay S, Benkenida A, Cuenot B. Large Eddy Simulation of fuel sprays using the Eulerian mesoscopic approach. Validations in realistic engine conditions in ICLASS-2009 (Vail, Colorado, USA), 2009.
31. Powell CF, Ciatti SA, Cheong S-K, Lu J, Wang J. X-ray absorption measurements of diesel sprays and the effects of nozzle geometry. SAE PAPER 2004-01-2011, 2004.
32. Kraichnan R.H. Diffusion by a random velocity field. Phys Fluids 13 (1970) 22-31
33. Smirnov A., Shi S., and Celik I. Random flow generation technique for large eddy simulations and particle-dynamics modeling. Trans ASME J Fluids Eng 123 (2001) 359-371
34. Leick Ph, Bittlinger G, Tropea C. Velocity Measurements in the near nozzle region of common-rail diesel sprays at elevated back-pressures. In: 19th annual meeting of the institute for liquid atomization and spray systems (Europe), 2004.
35. Saliba R, Baz I, Champoussin JC, Lance M, Marié JL. Cavitation effect on the near nozzle spray development in high pressure diesel injection. In: 19th annual meeting of the institute for liquid atomization and spray systems (Europe), 2004.
36. Moureau V., Lartigue G., Sommerer Y., Angelberger C., Colin O., and Poinsot T. Numerical methods for unsteady compressible multi-component reacting flows on fixed and moving grids. J Comput Phys 202 (2004) 710-736