Dossier: Development and Control of Combustion Systems
Open Access
Oil & Gas Science and Technology - Rev. IFP
Volume 61, Numéro 1, January-February 2006
Dossier: Development and Control of Combustion Systems
Page(s) 43 - 56
Publié en ligne 1 janvier 2007
  • Wang T.C., Han J.S., Xie X.B., Lai M.C., Henein N.A., Schwarz E. and Bryzik W. (2000) Parametric characterization of high pressure Diesel fuel unit injection systems. ASME paper 2000-ICE-281. [Google Scholar]
  • Blessing M., König G., Krüger C., Michels U. and Schwarz V. (2003) Analysis of Flow and Cavitation Phenomena in Diesel Injection Nozzles and its Effects on Spray and Mixture Formation. SAE paper 2003-01-1358. [Google Scholar]
  • Marcer R., Le Cottier P., Chaves H., Argueyrolles B., Habchi C. and Barbeau B. (2000) A Validated Numerical Simulation of Diesel Injector Flow Using a VOF Method. SAE paper 2000-01-2932. [Google Scholar]
  • Habchi C., Dumont N. and Simonin O. (2003) CAVIF: A 3D Code for the Modeling of cavitating Flows in Diesel Injectors. ICLASS 2003, Sorrento ITALY. [Google Scholar]
  • Béard P. (2005) Towards a Predictive Modelling of Transient Injection Conditions of Diesel Sprays in DID Engines, ILASS America 18th Annual Conference on Liquid Atomization and Spray Systems, Irvine, CA, May 2005. [Google Scholar]
  • Pires da Cruz A. (2004) Three-Dimensional Modeling of Self-Ignition in HCCI and Conventional Diesel Engines, Comb. Science and Tech. 176, 5-6, 867-887. [Google Scholar]
  • Jay S. and Colin O. (2005) Fuel composition influence on auto-ignition in engine 3D simulations, 20th ICDERS, Montréal. [Google Scholar]
  • Lutz A., Kee R. and Miller J. (1987) Senkin: A Fortran program for predicting homogeneous gas phase chemical kinetics with sensitivity analisys, Report No. SAND87-8248.UC-4, Sandia National Laboratories. [Google Scholar]
  • Kee R.J., Rupley F.M. and Miller J.A. (1989) Chemkin-II: A Fortran chemical kinetics package for the analysis of gasphase chemical kinetics, Report No. SAND89-8009.UC401, Sandia National Laboratories. [Google Scholar]
  • Buda F.,Bounaceur R.,Warth V.,Glaude P.A.,Fournet R. and Battin-Leclerc F. (2005) Progress towards a unified detailed kinetic model for the autoignition of alkanes from C4 to C10 between 600 and 1200 K, Combust. Flame, 142, 1-2, 170-186. [CrossRef] [Google Scholar]
  • Zolver M., Torres A. and Klahr D. (2001) CFD and Combustion in Engines with an Unstructured Parallel Solver Based on KIVA. Article (1-14), The Fifth International Symposium on Diagnostics and Modeling of Combustion in Internal Combustion Engines, COMODIA 2001, July 2001, Nagoya, Japan. [Google Scholar]
  • Zolver M., Torres A. and Klahr D. (2002) An Unstructured Parallel Solver for Engine Intake and Combustion Stroke Simulation. SAE paper 2002-01-1120. [Google Scholar]
  • Zolver M., Klahr D., Bohbot J., Laget O. and Torres A. (2003) Reactive CFD in Engines with a New Unstructured Parallel Solver. Oil & Gas Science and Technology, 58, n° 1, 33-46. [Google Scholar]
  • Bohbot J., Klahr D., Zolver M. and Torres A. (2003) A Three Dimensional Modelling of Combustion in a Direct Injection Diesel Engine using a New Unstructured Parallel Solver. The 2003 International Conference on Computational Science and its Applications, ICCSA, May 2003, Montréal, Canada, proceedings, 483-492. [Google Scholar]
  • Zolver M., Bohbot J., Klahr D. and Torres A. (2003) An Unstructured Parallel Solver for Multi-phase and Reactive Flows in Internal Combustion Engines. Parallel CFD 2003, Mai 2003, Moscow. [Google Scholar]
  • Zolver M., Benkenida A., Bohbot J., Klahr D. and Réveillé B. (2004) CFD Tools at IFP for HCCI Engine Simulations. International Multidimensional Engine Modelling User’s Group Meeting, March 2004, Detroit, USA. [Google Scholar]
  • Béard P., Duclos J.M. and Zolver M .(2001) Modélisation de la combustion Diesel – Rapport des activités 2000. Technical Report 55913, IFP. [Google Scholar]
  • Béard P., Colin O. and Miche M. (2003) Improved Modelling of DI Diesel Engines Using Sub-grid Descriptions of Spray and Combustion. SAE paper 2003-01-0008. [Google Scholar]
  • Béard P., Duclos J.M., Habchi C., Bruneaux G., Mokkadem K. and Baritaud T. (2000) Extension of Lagrangian-Eulerian Spray Modelling: Application to high pressure Evaporating Diesel Sprays. SAE paper 2000-01-1893. [Google Scholar]
  • Colin O., Benkenida A. and Angelberger C., 3D Modelling of Mixing, Ignition and Combustion Phenomena in Highly Stratified Gasoline Engine. Oil & Gas Science and Technology, 58, 1, 2003. [Google Scholar]
  • Colin O. and Benkenida A. (2004) The 3-Zones Extended Coherent Flame Model (ECFM3Z) for computing premixed diffusion combustion. Oil & Gas Science and Technology, 59, 6, 2004. [Google Scholar]
  • Magnussen B.F. and Hjertager B.H. (1976) On Mathematical Modelling of Turbulent Combustion with Special Emphasis on Soot Formation and Combustion. In 16th Symposium (International) on Combustion, 719-729. The combustion Institute. [Google Scholar]
  • Martinot S., Béard P., Roesler J. and Garo A. (2001) Comparison and coupling of homogeneous reactor and flamelet librariy soot modeling approaches for Diesel combustion. SAE paper 2001-01-3684 [Google Scholar]
  • Bensler H., Buhren F., Samson E. and Vervish L. (2000) 3D CFD Analysis of the Combustion Process in a DI Diesel Engine Using a Flamelet Model. SAE paper 2000-01-0662. [Google Scholar]
  • Heywood J.B. (1988) Internal Combustion Engine Fundamentals. McGraw Hill. [Google Scholar]
  •, IMAGINE. [Google Scholar]
  • Ryan T.W. and Callahan T.J. (1988) Engine and constant volume bomb studies of Diesel ignition and combustion. SAE technical paper 881626. [Google Scholar]
  • Ryan T.W. and Callahan, T.J. (1996) Homogeneous Charge Compression Ignition of Diesel fuel. SAE paper 961160. [Google Scholar]
  • Colin O., Pires da Cruz A. and Jay S. (2005) Detailed chemistry based auto-ignition model including low temperature phenomena applied to 3D engine calculations. Proc. Combust. Inst. 30, 2, 2649-2656. [CrossRef] [Google Scholar]
  • Walter B., Monteiro L., Miche M and Gatellier B. (2004) Improvment of Exhaust and Noise Emissions of the NADI™ concept using pre-mixed type combustion with multiple stages injection. The Diesel Engine: TODAY and TOMORROW, SIA 2004. [Google Scholar]

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