REFERENCES
- J. Zhang and C. Chen , Simulation of Turbulent Reacting Flow in a Swirl Combustor , Numer. Heat Transfer A , vol. 53 , pp. 605 – 624 , 2008 .
- L. Y. Hu , L. X. Zhou , and Y. H. Luo , Large-Eddy Simulation of the Sydney Swirling Nonpremixed Flame and Validation of Several Subgrid-Scale Models , Numer. Heat Transfer B , vol. 53 , pp. 39 – 58 , 2008 .
- L. Y. Hu , L. X. Zhou , and J. Zhang , Large-Eddy Simulation of a Swirling Diffusion Flame Using a SOM SGS Combustion Model , Numer. Heat Transfer B , vol. 50 , pp. 41 – 58 , 2006 .
- H. Miao and B. Milton , Numerical Simulation of the Gas/Diesel Dual-Fuel Engine In Cylinder Combustion Process , Numer. Heat Transfer A , vol. 47 , pp. 523 – 547 , 2005 .
- H. Miao and B. Milton , Modeling of the Gas/Diesel Dual-Fuel Combustion Process for Conditions Applicable to Engines , Numer. Heat Transfer A , vol. 41 , pp. 725 – 739 , 2002 .
- A. B. Caldeira , A. J. K. Leiroz , and H. R. B. Orlande , Interaction Effects during Combustion of Linear Arrays of Gaseous Fuel Pockets , Numer. Heat Transfer A , vol. 54 , pp. 1085 – 1100 , 2008 .
- J. Daou and B. Rogg , Convective Burning of Gaseous Fuel Pockets and Supercritical Droplets , Combustion and Flame , vol. 115 , pp. 145 – 157 , 1998 .
- Y. M. Kim , S. J. Kim , Z. J. Chen , and C. P. Chen , Numerical Simulation of Combustion Wave Propagation in Air-Fuel Spray Mixture with Temperature Nonuniformity , Numer. Heat Transfer A , vol. 34 , pp. 23 – 41 , 1998 .
- C. P. Cho , S. Jo , H. Y. Kim , and S. S. Yoon , Numerical Studies on Combustion Characteristics of Interacting Pulverized Coal Particles at Various Oxygen Concentration , Numer. Heat Transfer A , vol. 52 , pp. 1101 – 1122 , 2007 .
- M. Matalon , Flame Dynamics, Proc. of the Combustion Institute , vol. 32, pp. 57–82, 2009.
- A. Liñán and F. A. Williams , Fundamentals Aspects of Combustion , Oxford Univ. Press , New York , 1993 .
- F. F. Fachini , A. Liñán , and F. A. Williams , Theory of Flame Histories in Droplet Combustion at Small Stoichometric Fuel-Air Ratios , AIAA J. , vol. 37 , pp. 1426 – 1435 , 1999 .
- F. F. Fachini , Extended Shvab–Zel'dovich Formulation for Multicomponent-Fuel Diffusion Flames , Inter. J. Heat and Mass Transfer , vol. 50 , pp. 1035 – 1048 , 2007 .
- M. Sibulkin and S. Malary , Diffusion Flame Calculations for Nonunity Lewis Number , Combust. Sci. Tech. , vol. 28 , pp. 85 – 88 , 1982 .
- W. A. Sirignano , Liquid-Fuel Burning with Nonunitary Lewis Number , Combustion and Flame , vol. 148 , pp. 177 – 186 , 2007 .
- K. K. Kuo , Principles of Combustion , Wiley-Interscience , New York , 1986 .
- J. F. Thompson , Z. U. A. Warsi , and C. W. Mastin , Numerical Grid Generation—Foundations and Applications , Elsevier Science Publishing , New York , 1985 .
- H. K. Versteeg and W. Malalasekera , An Introduction to Computational Fluid Dynamics—The Finite Volume Method , Prentice Hall , London , 1995 .
- J. P. Van Dormaal and G. D. Raithby , Enhancements of the SIMPLE Method for Predicting Incompressible Fluid-Flows , Numer. Heat Transfer B , vol. 7 , pp. 147 – 163 , 1984 .
- G. D. Raithby and K. E. Torrance , Upstream-Weighted Differencing Schemes and Their Application to Elliptic Problems Involving Fluid Flow , Computers & Fluids , vol. 2 , pp. 191 – 206 , 1974 .
- W. H. Press , S. A. Teukolsky , W. T. Vetterling , and B. P. Flannery , Numerical Recipes in Fortran—The Art of Scientific Computing, , 2nd ed. , Cambridge University Press , Cambridge , UK , 1992 .
- E. G. Moreira Filho , M. M. Mejias , H. R. B. Orlande , and A. J. K. Leiroz , Computational Aspects of Metrics Evaluation for the Finite Volume Method , Proc. 9th Brazilian Congress of Thermal Sciences and Engineering , Brazil , vol. 1 , pp. 1 – 10 , 2002 .
- F. A. Willliams , Combustion Theory, , 2nd ed. , The Benjamin/Cummings Publishing Company Inc. , Melo Park , CA , 1985 .