Bio

Contact Information:

UIC Department of Mechanical & Industrial Engineering (M/C 251), 2039 ERF, 842 W. Taylor Street, Chicago, Illinois 60607

Office: Room 2021, ERF

Lab Location: Room 2020, ERF

Lab Website: Flow and Combustion Simulation Laboratory

Ph.D., Aerospace Engineering Georgia Institute of Technology

M.S., Aeronautical Engineering Indian Institute of Science, Bengaluru, India

B.S., Aeronautical Engineering PEC University of Technology, Chandigarh, India

Professor Aggarwal’s research interests are primarily in the area of combustion and spray processes. These processes involve fluid flow, heat and mass transfer, phase change and chemical reactions (depending upon the application). They are important in a variety of applications, including jet engine combustion, diesel engines, industrial burners, liquid-propellant rocket engines, alternative fuels, hazardous waste incineration, and other systems utilizing sprays. Current research includes the ignition and combustion of multi-component fuel droplets and sprays, turbulent spray combustion, direct numerical simulations of shear layers, partially premixed flame structure, transient combustion phenomenon including; flame-vortex interactions, passive/active control of two-phase processes, and emissions. The major objective of the research, which is both numerical and experimental, is to enhance understanding and to develop predictive capabilities for the phenomena of interest.

2001: UIC-Teaching Excellence Award (UIC-TRP)-

2001: UIC-College of Engineering Faculty Research Award

1998-Present: Associate Editor; AIAA Journal

Associate Fellow, AIAA

1994-Present: Member; AIAA Technical Committee on Terrestrial Energy Systems

1989-Present: Member; International Gas Turbine Institute’s Combustion and Fuel Committee

1985-88, 1990-93: Member; AIAA Propellants & Combustion Tech. Committee

1992, 1994: Member; DOE Peer Review panel

1994: Navy-ASEE Senior Summer Fellow

1991: University of Illinois Scholar Award

Who’s Who in Science and Engineering

Who’s Who in America

Who’s Who in the World

  1. B. Seth, S.K. Aggarwal and W.A. Sirignano, “Flame Propagation through an Air-Fuel Spray Mixture with Transient Vaporization,” Combustion and Flame, 39, 149-168, 1980.
  2. S.K. Aggarwal, G. Fix, D.N. Lee and W.A. Sirignano, “Numerical Optimization Studies of Axisymmetric Unsteady Sprays,” Journal of Computational Physics, Vol. 50, No. 1, pp. 101-115, 1983.
  3. S.K. Aggarwal and W.A. Sirignano, “Numerical Modeling of One-Dimensional Enclosed Homogeneous and Heterogeneous Deflagrations,” Computers and Fluids, Vol. 12, No. 2, pp. 145-158, 1984.
  4. S.K. Aggarwal, A. Tong and W.A. Sirignano, “A Comparison of Vaporization Models for Spray Calculations,” AIAA Journal, Vol. 22, No. 10,pp. 1448-1457, 1984.
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  5. S.K. Aggarwal, G.J. Fix and W.A. Sirignano, “Two Phase Laminar Axisymmetric Jet Flow Explicit, Implicit, and Split-Operator Approximations,” Numerical Methods in Partial Differential Equations, Vol. 1, pp. 279-294, 1985.
  6. S.K. Aggarwal and W.A. Sirignano, “Ignition of Fuel Sprays Deterministic Calculations for Idealized Droplet Arrays,” Twentieth Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, pp. 1773-1780, 1984.
  7. S.K. Aggarwal and W.A. Sirignano, “Unsteady Spray Flame Propagation in a Closed Volume,” Combustion and Flame, Vol. 62, pp. 69-84, 1985.
  8. S.K. Aggarwal and W.A. Sirignano, “Ignition of Polydisperse Sprays Importance of D20,” Combustion Science and Technology, Vol. 46, pp. 289-300, 1986.
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  9. S.K. Aggarwal, J. Iyengar, and W.A. Sirignano, “Enclosed Gas and Liquid with Nonuniform Heating from Above,” Int. J. Heat Mass Transfer, Vol. 29, No. 10, pp. 1593-1604, 1986.
  10. S. K. Aggarwal, “Effects of Internal Heat Transfer Models on the Ignition of a Fuel Droplet,” Combustion, Science and Technology, Vol. 42, pp. 325-334, 1985.
  11. S. K. Aggarwal, “Some Numerical Experiments on Fisher Equation,” International Communications in Heat and Mass Transfer, Vol. 12, pp. 417-430, 1985.
  12. S. K. Aggarwal, “Numerical Study of Convection-Diffusion-Reaction Equations for Large Damkohler and Cell Reynolds Numbers,” Numerical Heat Transfer, Vol. 11, pp. 143-164, 1987.
  13. S. K. Aggarwal, “Chemical-Kinetics Modeling for the Ignition of Idealized Sprays,” Combustion and Flame, Vol. 69, pp. 291-302, 1987.
  14. S. K. Aggarwal, “Modeling of a Dilute Vaporizing Multicomponent Fuel Spray,” Int. J. Heat Mass Transfer, Vol. 30, pp. 1949-1961, 1987.
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  15. S. K. Aggarwal, “Ignition and Unsteady Flame Propagation in Dilute Polydisperse Sprays; Importance of D32 and D20,” J. of Propulsion and Power, Vol. 4, pp. 14-21, 1988.
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  16. S. K. Aggarwal and S. Cha, “A Parametric Study on Spray Ignition and Comparison with Experiments,” Combustion Science and Technology, Vol.59, pp. 213-223, 1988.
  17. N. Ashgriz, C.H. Chiang, and S. K. Aggarwal, “Flame Structure in Fuel Rich Mono-Dispersed Sprays,” International Communications in Heat and Mass Transfer, Vol. 15, pp. 765-772, 1988.
  18. S. K. Aggarwal, “Further Results on Evaporating Bicomponent Fuel Sprays, “Int. J. Heat Mass Transfer, Vol. 31, pp. 2593-2597, 1988.
  19. S. K. Aggarwal and J. S. Shuen, “Vaporization Behavior of Turbulent Polydisperse and “Equivalent” Monodisperse Sprays,” J. of Propulsion and Power, Vol. 5, pp. 151-153, 1989.
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  20. S. K. Aggarwal, “Ignition Behavior of a Dilute Multicomponent Fuel Spray,” Combustion and Flame, Vol. 76, pp. 5-15, 1989.
  21. S. K. Aggarwal and A. Manhapra, “Transient Natural Convection in a Cylindrical Enclosure Non-Uniformly Heated at the Top Wall,” Numerical Heat Transfer, Part A, Vol. 15, pp. 341-356, 1989.
  22. S. K. Aggarwal and A. Manhapra, “Use of Heat Lines for Unsteady Buoyancy-Driven Flows in a Cylindrical Enclosure,” J. Heat Transfer, Vol. 111, pp. 576-578, 1989.
  23. M. Mawid and S. K. Aggarwal, “Chemical Kinetics Effects on the Ignition of a Fuel Droplet,” Combustion Science and Technology, Vol. 65, pp. 137-146, 1989.
  24. S. K. Aggarwal and K. Nguyen, “Ignition Behavior of a Fuel Spray Flowing in a Tube,” Chemical Engineering Communications, Vol. 88, pp. 23-29, 1990.
  25. M. Mawid and S.K. Aggarwal, “Analysis of Dropwise Ignition Versus External Ignition for Dilute Multicomponent Fuel Sprays,” Combustion and Flame, Vol. 81, pp. 59-72, 1990.
  26. M. Mawid and S.K. Aggarwal, “Ignition of a Fuel Spray by Hot Surfaces in a Constant Volume Combustor,” J. Non-Equilibrium Thermodynamics, Vol. 15, pp. 369-381, 1990.
  27. S. K. Aggarwal and M. Mawid, “Analysis of Transient Combustion of a Multicomponent Fuel Droplet,” Combustion and Flame, Vol. 84, pp. 197-209, 1991.
  28. S. K. Aggarwal and S. Chitre, “Computations of Turbulent Evaporating Sprays, “J. of Propulsion and Power, Vol. 7, No. 2, pp.213-220, 1991.
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  29. S. K. Aggarwal, G. Chen, T.A. Jackson, and G.L. Switzer, “Vaporization Behavior of Fuel Droplets in a Hot Air Stream,” Int. J. Heat Mass Transfer, Vol. 34, No. 10, pp. 2669-2673, 1991.
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  30. S. K. Aggarwal and S. Chitre, “On the Structure of Unconfined Turbulent Spray Flames, ” Combustion Science and Technology, Vol. 81, p. 97-113, 1992.
  31. D.L. Bulzan, Y. Levy, S. K. Aggarwal, and S. Chitre, ” Measurements and Predictions of a Liquid Spray from an Air-Assist Nozzle”, Atomization and Sprays, Vol. 2, No. 4 pp. 445-462, 1992.
  32. J. B. Yapo and S. K. Aggarwal, “Comparison of FCT with Other Numerical Methods for the Burgers Equation, ” Int. Comm. Heat Mass Transfer, Vol. 20, pp. 393-405, 1993.
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  33. C. A. Philbrick, S. K. Aggarwal, and I. K. Puri, “The Extinction of Methane/Methyl Chloride Nonpremixed Flames, ” J. of Hazardous Waste and Hazardous Materials, Vol. 10, pp. 71-79, 1993.
  34. S. K. Aggarwal and Y. Xiao, “Effect of External Forcing on Droplet Dispersion in a Developing Shear Flow”, J. of Propulsion & Power, Vol. 10, No. 3, pp. 395-401, 1994.
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  35. S.K. Aggarwal, Y. Xiao and J. Uthuppan, “Effect of Stokes Number on Droplet Dispersion,” Atomization and Spray, Vol. 4, No. 2, pp. 223-236, 1994.
  36. S. K. Aggarwal, “Relationship Between the Stokes Number and Intrinsic Frequencies in Particle-Laden Flows,” AIAA Journal, Vol. 32, No. 6, pp. 1322-1325, 1994.
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  37. J. Uthuppan, S. K. Aggarwal, F. F.Grinstein, and K. Kailasanath, “Particle Dispersion in a Transitional Axisymmetric Jet A Numerical Simulations”, AIAA Journal, Vol. 32, No. 10, pp. 2004-2014, 1994.
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  38. T. W. Park, S.K. Aggarwal,  and V. R. Katta, “Effect of Gravity on the Structure of an Unsteady Spray Diffusion Flame ,” Combustion and Flame, Vol. 99, pp. 767-774, 1994.
  39. T. W. Park, S.K. Aggarwal,  and V.R. Katta, “Gravity Effect on the Dynamics of Evaporating Droplets in a Heated Jet,” J. of Propulsion & Power, Vol. 11, No.3, pp. 519-528, 1995.
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  40. F. Peng and S. K. Aggarwal, “A Review of Droplet Dynamics and Vaporization Modeling for Engineering Calculations,” ASME J. of Engineering for Gas Turbines and Power, Vol. 117, pp. 453-461, July 1995.
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  41. Y. H. Huang and S. K. Aggarwal, “Effect of Wall Conductance on Natural Convection in an Enclosure with a Centered Heat Source,” ASME Journal of Electronic Packaging, Vol. 117, pp. 301-306, Dec. 1995.
  42. S.K. Aggarwal, J.B. Yapo, F.F.Grinstein, and K.Kailasnath, “Numerical Simulation of Particle Transport in Planar Shear Layers,” Computers and Fluids , Vol. 25, No.1, pp. 39-59, 1996.
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  43. F. Peng and S. K. Aggarwal, “Droplet Motion Under the Influence of Flow Nonuniformity and Relative Acceleration,” Atomization and Sprays, Vol. 6, No.1, pp. 42-65, 1996.
  44. T.W. Park, S. K. Aggarwal, and V.R. Katta, “A Numerical Study Of Droplet-Vortex Interactions In an Evaporating Spray,” Int. J. of Heat & Mass Transfer , Vol. 39, No. 11, pp. 2205-2219, 1996.
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  45. S. K. Aggarwal, T. W. Park, and V. R. Katta, “Unsteady Spray Behavior in a Heated Jet Shear Layer Droplet-Vortex Interactions,” Combustion Science and Technology, Vol. 113-114, pp. 429-450, 1996.
  46. M. Mawid and S. K. Aggarwal, “Fuel Accumulation Effect on the Combustion Characteristics of Multicomponent Fuel Droplets,” Chemical Engineering Communications , Vol. 157, pp. 35-51, 1997.
  47. G. Chen, S. K. Aggarwal, T. A. Jackson, and G. L. Switzer, “An Experimental Study of Pure and Multi-Component Fuel Droplets in a Heated Air Flow,” Atomization and Sprays, Vol. 7, No. 3, pp. 317-337, 1997.
  48. Z. Shu, S. K. Aggarwal,  I.K. Puri, and V. R. Katta, “Flame-Vortex Dynamics in an Inverse Partially Premixed Combustor; The Froude Number Effects,” Combustion and Flame, Vol. 111, No. 4, pp. 276-295, 1997.
  49. Z. Shu, S. K. Aggarwal,  I. K. Puri, and V. R. Katta, “A Numerical Investigation of the Flame Structure of an Unsteady Inverse Partially Premixed Flame,” Combustion and Flame, Vol. 111, No. 4, pp. 295-311, 1997.
  50. G. Chen and S. K. Aggarwal, “Unsteady Multiphase Intake Flow in a Port Injected Gasoline Engine,” SAE Transactions-J. of Engines , Vol. 105, pp. 215-225, 1997.
  51. T.W. Park, S. K. Aggarwal,  and V. R. Katta, “On The Dynamics of a Two-Phase Swirling Jet,” Int. J. Multiphase Flow, Vol. 24, No. 2, pp. 295-317, 1998.
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  52. S. K. Aggarwal and I. K. Puri, “Flame Structure Interactions and State Relationships in an  Unsteady Partially Premixed Flame,” AIAA Journal, Vol. 36, No. 7, pp. 1190-1199, 1998.
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  53. Z. Shu, B. J. Krass, C. W. Choi, S. K. Aggarwal, V. R. Katta, and I.K. Puri, “An Experimental and Numerical Investigation of the Structure of Steady Two-Dimensional Partially Premixed Methane-Air Flames,” Twenty-Seventh Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, pp. 625-632, 1998.
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  54. S. K. Aggarwal, “A Review of Spray Ignition Phenomenon: Present Status and Future Research,” Progress in Energy & Combustion Science, Vol. 24/6, pp. 565-600, 1998.
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  55. S. K. Aggarwal, “Atomization, Ignition, and Combustion of Liquid Propellants,”Chapter in the book entitled, Modelling and Performance Prediction in Rockets and Guns, Edited by S. R. Chakravarthy and S. Krishnan, Allied Publishers Limited, India, 1998.
  56. S. K. Aggarwal and J. Uthuppan, “Particle Dispersion Enhancement in the Near Region of a Forced Jet,” J. of Propulsion & Power, Vol. 15, No. 2, pp. 266-271, 1999.
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  57. E. J. Chang, K. Kailasanath, and S. K. Aggarwal, “Two-Way Coupled Systems in an Axisymmetric Ramjet Combustor,” AIAA Journal, Vol. 37, No. 3, pp. 396-398, 1999.
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  58. Z. Shu, C. W. Choi, S. K. Aggarwal, V. R. Katta, and I.K. Puri, “Gravitational Effects on the Structure of Steady Two-Dimensional Partially Premixed Methane-Air Flames, Combustion and Flame, Vol. 118, No. 1/2, pp. 91-107, 1999.
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  59. S. K. Aggarwal and T.W. Park, “Dispersion of Evaporating Droplets In a Swirling Axisymmetric Jet,” AIAA J., Vol. 37, No. 12, pp. 1578-1587, 1999.
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  60. R. Azzoni, S. Ratti, S. K. Aggarwal, and I. K. Puri, “The Structure of Triple Flames Stabilized on a Slot Burner,” Combustion and Flame, Vol. 119, No. 1/2, pp. 23-40, 1999.
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  61. R. Azzoni, S. Ratti, I. K. Puri, and S. K. Aggarwal, “Gravity Effects on Triple Flames: Flame Structure and Flow Instability,” Physics of Fluids, Vol. 11, pp. 3449-3464, 1999.
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  62. G. Zhu and S. K. Aggarwal, “Transient Supercritical Droplet Evaporation with Emphasis on the Effects of Equation of State,” Int. J. of Heat & Mass Transfer, Vol. 43, No.7, pp. 1157-1171, 2000.
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  63. Z. Shu, V. R. Katta, I. K. Puri, and S. K. Aggarwal, “Effects of C2 Chemistry on the Structure of Partially-Premixed Methane-Air Flames,” Combustion Science and Technology, Vol. 157, pp. 285-211, 2000.
  64. A. K. Tolpadi, S. K. Aggarwal, and H. Mongia, “An Advanced Spray Model for Application to the Prediction of Gas Turbine Combustor Flowfields,” Numerical Heat Transfer, Part A, Vol. 38, No. 4, pp. 325-340, 2000.
  65. S. K. Aggarwal, I. K. Puri, and X. Qin, “A Numerical and Experimental Investigation of “Inverse” Triple Flames,” Physics of Fluids, Vol. 13, No.1, pp. 265-275, 2001.
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  67. I. K. Puri, S. K. Aggarwal, R. Azzoni, and S. Ratti, “On the Similitude Between Lifted and Burner-Stabilized Triple Flames: A Numerical and Experimental Investigation,” Combustion and Flame, Vol. 124, No. 1/2, pp. 311-325, 2001.
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  68. D. J. Brandon and S. K. Aggarwal, “A Numerical Investigation of Particle Deposition on a Square Cylinder Placed in a Channel Flow,” Aerosol Science and Technology, Vol. 34, No. 4, pp. 340-352, 2001.
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  69. H. Xue and S. K. Aggarwal, “Effects of Reaction Mechanisms on the Structure and Extinction of Partially Premixed Flames,” AIAA Journal, Vol. 39, No. 4, pp. 637-645, 2001.
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  70. G. Zhu, R. D. Reitz, and S. K. Aggarwal, “Gas-Phase Unsteadiness and Its Influence on Droplet vaporization in Sub- and Super-Critical Environments,” Int. J. of Heat & Mass Transfer, Vol. 44/16, pp. 3081-3093, 2001.
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  71. S. K. Aggarwal, Book Review of “Turbulent Flows,” by Stephen B. Pope, AIAA Journal, Vol. 39, No. 10, p. 2029, 2001.
  72. X. Qin , X. Xiao, I. K. Puri, and S. K. Aggarwal, “Effect of Varying Composition on Temperature Reconstruction obtained from refractive index measurements in Flames,” Combustion and Flame, Vol. 128, No. 1/2, pp. 121-132, 2002.
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  73. H. Xue, S. K. Aggarwal, R. J. Osborne, T. M. Brown, and R. W. Pitz, “Comparison of Predicted and Measured Counterflow Partially Premixed Flame Structures: Assessment of Reaction Mechanisms,” AIAA J., Vol. 40, No. 6, pp. 1236-1239, 2002.
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  74. S. K. Aggarwal and H. Mongia, “Multicomponent and High-Pressure Effects on Droplet Vaporization, ” Transactions of the ASME-J. of Engineering for Gas Turbines and Power, Vol. 124, No. 2, pp. 248-257, 2002.
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  75. X. Qin, I. K. Puri, and S. K. Aggarwal, “Characteristics of Lifted Triple Flames Stabilized in the Near Field of a Partially Premixed Axisymmetric Jet,” Proceedings of The Combustion Institute, 29th International Symposium on Combustion, July 21-26, 2002, Sapporo, Japan.
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  76. A. Mukhopadhyay, X. Qin, S. K. Aggarwal, and I. K. Puri, “On Extension of “Heat Line and “Mass Line” Concepts to Reacting Flows Through Use of Conserved Scalars,” ASME J. Heat Transfer Vol. 124, August, pp. 791-799, 2002.
  77. S. K. Aggarwal, C. Yan, and G. Zhu, “On the Transcritical Vaporization of a Liquid Fuel Droplet in Supercritical Ambient,” Combustion Science and Technology, Vol. 174 (9), pp. 103-130, 2002.
  78. H. Xue and S. K. Aggarwal, “The Structure and Extinction of Heptane/Air Partially-Premixed Flames,” AIAA Journal, Vol. 40, No. 11, pp. 2289-2297, 2002.
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  79. G. Zhu and S. K. Aggarwal, “Fuel Droplet Evaporation in a Supercritical Environment,” Transactions of the ASME-J. of Engineering for Gas Turbines and Power, Vol. 124, October, pp. 762-770, 2002.
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  80. S. K. Aggarwal, G. Zhu, and R. D. Reitz, “Quasi-Steady High-Pressure Droplet Model for Diesel Sprays,” SAE Transactions, J. of Engines, Vol. 109, Section 3, pp. 734-743, 2000.
  81. H. Xue and S. K. Aggarwal, “NOx Emissions in n-Heptane/Air Partially Premixed Flames,” Combustion and Flame, Vol. 132, pp. 723-741, 2003.
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  82. L. Consolini, S. K. Aggarwal, and S. Murad, “A Molecular Dynamics Simulation of Droplet Evaporation,” Int. J. of Heat & Mass Transfer, Vol. 46/17, pp. 3179-3188, 2003.
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  83. A. Mukhopadhyay, X. Qin, S. K. Aggarwal, and I. K. Puri, “Visualization of Scalar Transport in Nonreacting and Reacting Jets through a Unified “Heat Line and “Mass Line” Formulation,” Numerical Heat Transfer: Part A: Applications Vol. 44/, pp. 683-704, 2003.
  84. S. K. Aggarwal, “Partially Premixed Combustion, Fundamental Understanding and Industrial Applications,” Chapter in the book entitled, Combustion and Atmospheric Pollution, Edited by G. D. Roy, S. M. Frolov, and A. M. Starik,Torus Press Ltd., Russia, 2003.
  85. X. Qin, C. Choi, I. K. Puri, and S. K. Aggarwal, “Triple Flame Propagation and Stabilization in a Laminar Axisymmetric Jet,” Combustion Theory and Modeling, Vol. 8, No. 2, pp. 293-314, 2004.
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  86. X. Qin , I. K. Puri, S. K. Aggarwal, and V. R. Katta, “Gravity, Radiation and Coflow Effects on Partially Premixed Flames,” Physics of Fluids, Vol. 16, pp. 2963-74, 2004.
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  87. S. Naha and S. K. Aggarwal, “Fuel Effects on NOx Emissions in Partially Premixed Flames,” Combustion and Flame, Vol. 39, No. 1-2, pp. 90-105, 2004.
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  88. A. M. Briones and S. K. Aggarwal, “A Numerical Study of H2-Air Partially Premixed Flames,” Int. J. of Hydrogen Energy, Vol. 30, 327- 339, 2005.
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  89. A. J. Lock, R. Ganguly, I. K. Puri, S. K. Aggarwal, and U. Hegde, “Gravity Effects on Partially Premixed Flames: An Experimental-Numerical Investigation,” Proceedings of The Combustion Institute, Vol. 30, pp. 511-518, 2005. PDF
  90. P. Berta, I. K. Puri, and S. K. Aggarwal, “Structure of Partially Premixed N-Heptane/Air Counterflow Flames,” Proceedings of The Combustion Institute, Vol. 30, pp. 447-453, 2005. PDF
  91. A. M. Briones, I. K. Puri, and S. K. Aggarwal, “Effect of Pressure on Counterflow H2-Air Partially Premixed Flames,” Combustion and Flame, Vol. 140, pp. 46-59, 2005. PDF
  92. S. Naha, A. M. Briones, and S. K. Aggarwal, “Effect of Fuel Blends on Pollutants Emissions in Flames,” Combustion Science and Technology, Vol. 177 (1) pp. 183-220, 2005.
  93. A. J. Lock, A. M. Briones, X. Qin, S. K. Aggarwal, I. K. Puri, and U. Hegde, “Liftoff Characteristics of Partially Premixed Flames in Normal and Microgravity Conditions,” Combustion and Flame, Vol. 143, pp. 159-173, 2005.
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  94. S. K. Aggarwal and D. G. Lilley, “Terrestrial Energy Systems Highlights Article 2005,” Aerospace America, December 2005.
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  95. C. Yan and S. K. Aggarwal, “A High-Pressure Quasi-Steady Droplet Vaporization Model for Spray Simulations,” ASME J. of Engineering for Gas Turbines and Power, Vol. 128, pp. 482-492, 2006.
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  96. P. Berta, I. K. Puri, and S. K. Aggarwal, “An Experimental and Numerical Investigation of n-Heptane/Air Counterflow Partially Premixed Flames and Emission of NOx and PAH Species,” Combustion and Flame, Vol. 145, pp. 740-764, 2006.
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  97. A. M. Briones, S. K. Aggarwal, and V. R. Katta, “A Numerical Investigation of Flame Liftoff Stabilization, and Blowout,” Physics of Fluids, Vol. 18, pp. 570-588, 2006.
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  98. D. E. Giles, S. Som, and S. K. Aggarwal, “A Numerical Investigation on the Structure and Emission Characteristics of Counterflow Syngas Diffusion Flames,” Fuel, Vol. 85, No. 12-13, pp. 1729-1742, 2006.
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  99. Sibendu Som, S. K. Aggarwal, “A Numerical Investigation of Methane Air Partially Premixed Flames at Elevated Pressures,” Combustion Science and Technology, 179: pp 1085-1112, 2007.
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  100. A. Lock, A. M. Briones, S. K. Aggarwal, I. K. Puri, U. Hegde, “Liftoff and extinction charateristics of fuel- and air-stream-diluted methane-air flames,” Combustion and Flame, 149: pp 340-352, 2007.
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  101. A. M. Briones, S. Som, S. K. Aggarwal, “Effect of multistage Combustion on NOx Emissions in Methane-Air Flames,” Combustion and Flame, 149: pp 448-462, 2007.
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  102. M. Marchionni, I. K. Puri, S. K. Aggarwal, D. Lentini, “The Influence of Real Gas Thermodynamics on Simulations of Freely Propagating Flames in Methane/Air/Inert Mixtures,” Combustion Science and Technology, 179: pp 1777-1795, 2007.
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  103. S. Som, A. I. Ramirez, J. Hagerdorn, A. Saveliev, S. K. Aggarwal, “A numerical and experimental study of counterflow syngas flames at different pressures,” FUEL., 87: pp 319-334, 2008.
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  104. P. Berta, S. K. Aggarwal, I. K. Puri, S. Granata, T. Faravelli, E. Ranzi, ” Experimental and Numerical Investigation of n-Heptane/Air Counterflow Nonpremixed Flame Structure,” Journal of Propulsion and Power., 24 (4): pp 797-804, 2008.
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  105. A. M. Briones, S. K. Aggarwal, V. R. Katta, “Effects of Hydrogen Enrichment on the Propogation characteristics of CH4-air triple Flames,” Combustion and Flame., 153: pp 367-383, 2008.
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  106. A.J. Lock, S. K. Aggarwal, I. K. Puri, U. Hegde, “Suppression of Fuel and Air Stream Diluted Methane-Air Partially Premixed Flames in Normal and Microgravity,” Fire Safety Journal, 43: pp 24-35, 2008.
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  107. N. Sedighi, S. Murad, S. K. Aggarwal, “Molecular Dynamics Simulations of Nanodroplet Wetting on a Solid Surface,” Atomization and Sprays., 19(1): pp 1-15, 2009.
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  108. A.J. Lock, S. K. Aggarwal, I. K. Puri, “Effect of Fuel Type on the Extinction of Fuel and Air Stream Diluted Partially Premixed Flames,” Proceedings of The Combustion Institute, 32: pp 2583-2590, 2009.
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  109. A. M. Briones, A. Mukhopadhyay, S. K. Aggarwal, “Analysis of Entropy Generation in Hydrogen-Enriched Methane-Air Propagating Triple Flames,” Int. J. of Hydrogen Energy, 34: pp 1074-1083, 2009.
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  110. A. I. Ramirez, S. Som, S. K. Aggarwal,A. Kastengren, E. El-Hannouny, D.E. Longman, C.F. Powell, “Quantitative Measurement of Diesel Fuel Spray Characteristics in the Near-Nozzle Region of a Heavy Duty Multi-Hole Injector,” Experiments in Fluids, 47: pp 119-134, 2009.
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  111. S. K. Aggarwal, “Structure of Unsteady Partially Premixed Flames and the Existence of State Relationships,” Int. J. of Spray and Combustion Dynamics, 1 (3): pp 339-364, 2009.
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  112. S. Som, S. K. Aggarwal, “Assessment of Atomization models for diesel engine simulations,” Atomization and Sprays., 19(9): pp 885-903, 2009.
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  113. S. Som, S. K. Aggarwal, “Investigation of Nozzle flow and cavitation characteristics in a Diesel Injector,” Journal of Engineering for Gas Turbine and Power, 132: pp 1-12, 2010.
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  114. Nahid Sedighi1, Sohail Murad, S. K. Aggarwal, “Molecular dynamics simulations of nanodroplet spreading on solid surfaces, effect of droplet size” The Japan Society of Fluid Mechanics, 42: pp 1-23, 2010.
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  115. M.V. Johnson, G.S. Zhu, S.K. Aggarwal,, S.S. Goldsborough, “Droplet evaporation characteristics due to wet compression under RCM conditions” International Journal of Heat and Mass Transfer, 53. 2010.
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  116. S. Som, S.K. Aggarwal, “Effects of primary breakup modeling on spray and combustion characteristics of compression ignition engines” Combustion and Flame, 157. 2010.
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  117. S. Som, D.E. Longman, A.I. Ramirez, S.K Aggarwal, “A comparison of injector flow and spray characteristics of biodiesel with petrodiesel” Fuel, 89. 2010.
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  118. N. Sedighi1, S. Murad, S.K Aggarwal, “Molecular dynamics simulations of spontaneous spreading of a nanodroplet on solid surfaces” Fluid Dynamics Research, 43. 2011.
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  119. Hwan S. Chong, Suresh K. Aggarwal, Kyeong O. Lee, Seung Y. Yang, “Measurements of Heat Release of Diesel PM for Advanced Thermal Management Strategies for DPF Regeneration” Combustion Science & Technology, pp. 1328-1341. 2011.
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  120. S.K. Aggarwal, O. Awomolo, K. Akber, “Ignition characteristics of heptaneehydrogen and heptaneemethane fuel blends at elevated pressures” International Journal of Hydrogen Energy, pp. 15392-15402. 36.2011.
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  121. S.S. Goldsborough, M.V. Johnson, G.S. Zhu, S.K. Aggarwal, “Gas-phase saturation and evaporative cooling effects during wet compression of a fuel aerosol under RCM conditions” Combustion and Flame, 158.2011.
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  122. Viswanath R. Katta, Suresh K. Aggarwal, William M. Roquemore, “Evaluation of chemical-kinetics models for n-heptane combustion using a multidimensional CFD code” Fuel, 93.2012.
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  123. S.S. Goldsborough, M.V. Johnson, G.S. Zhu, S.K. Aggarwal, “Fuel and diluent property effects during wet compression of a fuel aerosol under RCM conditions” Fuel, 93.2012.
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  124. Xiao Fu, Stephen Garner, Surresh Aggarwal, and Kenneth Brezinsky, “Numerical Study of NOx Emissions from n-Heptane and 1-Heptene Counterflow Flames” Energy & Fuels, 26.2012.
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  125. Sibendu Som, Douglas E. Longman, Anita I. Ramirez, Suresh Aggarwal, “Influence of Nozzle Orifice Geometry and Fuel Properties on Flow and Cavitation Characteristics of a Diesel Injector” Fuel Injection in Automotive Engineering, pp.111-126. 2012.
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  126. Sudhanshu Jain, Dongru Li, Suresh K. Aggarwal, “Effect of hydrogen and syngas addition on the ignition of iso-octane/air mixtures” International Journal of Hydrogen Energy, 38. 2013.
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  127. Francesco Quesito, Massimo Santarelli, Pierluigi Leone, Suresh K. Aggarwal, “Biogas Combustion in Premixed Flames or Electrochemical Oxidation in SOFC: Exergy and Emission Comparison” Journal of Energy Resources Technology, 135. 2013.
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  128. Hwan S. Chong, Suresh K. Aggarwal, Kyeong O. Lee, Seung Y. Yang, Heeje Seong, “Experimental Investigation on the Oxidation Characteristics of Diesel Particulates Relevant to DPF Regeneration” Combustion Science and Technology, 185. 2013.
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  129. Xiao Fu, Xu Han, Kenneth Brezinsky, and Suresh Aggarwal, “Effect of Fuel Molecular Structure and Premixing on Soot Emissions from n-Heptane and 1-Heptene Flames” Energy & Fuels, 27. 2013.
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  130. X. Han, S. K. Aggarwal, and K. Brezinsky, “Effect of Unsaturated Bond on NOx and PAH Formation in n-Heptane and 1-Heptene Triple Flames” Energy & Fuels, 27. 2013.
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  131. A.I. Ramirez, S.K. Aggarwal, S. Som, T.P. Rutter, D.E. Longman, “Effects of blending a heavy alcohol (C20H40O with diesel in a heavy-duty compression-ignition engine” Fuel, 136. 2014.
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  132. Suresh Aggarwal, Thomas Helma & Dongru Li, “A numerical investigation on the ignition of JP-8 surrogates blended with hydrogen and syngas” International Journal of Advances in Engineering Sciences and Applied Mathematics, 6. 2014.
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  133. Suresh K. Aggarwal, “Single droplet ignition: Theoretical analyses and experimental findings” Progress in Energy and Combustion Science, 45. 2014.
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  134. Xiao Fu, Suresh K. Aggarwal, “Two-stage ignition and NTC phenomenon in diesel engines” Fuel, 144. 2015.
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