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Please note - These papers are sorted to the best of our ability. If there is no link to view or would like to download the paper or you would like to inquire about it's availability, please contact Dr. Suresh Menon (suresh.menon@ae.gatech.edu).

Conference With Proceedings

  1. TBA

Conference Without Proceedings

  1. Dunn, I., Sosa, J. Ahmed, K. A, Salvadori, M., and Menon, S. ``Flowfield Velocity Measurements of a Rotating Detonation Engine," AIAA-2020-1176, AIAA Sci Tech Forum, January 6-10, 2020.
  2. Ranjan, R., Karpe, S., Patel, P. and Menon, S., ``Assessment of Surrogate Models for Inverse Uncertainty Quantification of Simulant Combustion," AIAA-2020-2137, AIAA Sci Tech Forum, January 6-10, 2020.
  3. Karpe, S., Menon, S. and Ranjan, R., ``Large Eddy Simulation of Sooting Turbulent Non-Premixed Mixing Layers," AIAA-2020-2138, AIAA Sci Tech Forum, January 6-10, 2020.
  4. Ranjan, R. and Menon, S., ``Application of Nonlinear Reduced Order Modeling Strategy for Large Eddy Simulation of Chemically Reacting Turbulent Flows, AIAA-2020-2140, AIAA Sci Tech Forum, January 6-10, 2020.
  5. Salvadori. M., Menon, S., Dunn, I., Sosa, J., and Ahmed, K. A., ``Numerical Investigation of Shock-Induced Combustion of Coal-H2-Air mixtures in a Unwrapped Non-Premixed Detonation Channel," AIAA-2020-2159, AIAA Sci Tech Forum, January 6-10, 2020.


  1. Tudisco, P. and Menon, S., ``Numerical Investigation of Phase Separation during Multi-Component Mixing at Supercritical Conditions,'' Flow, Turbulence and Combustion, Vol. 104, pp. 693-724, 2020.
  2. Ochs, B. A. and Menon, S., ``Laser Ignition in Supersonic Channel Flow,'' Combustion and Flame, Vol. 214, pp. 90-102, 2020.
  3. Ranjan, R., Venkataswamy, M. K. and Menon, S., ``A Dynamic One Equation based Subgrid Model for Large-Eddy Simulation of Stratified Turbulent Flows,'' Physical Reviews Fluids, 2020 (to appear).
  4. Tudisco, P. and Menon, S.``Analytical Framework for Real-Gas Mixture with Phase-Equilibrium Thermodynamics,'' Journal of Supercritical Fluids, 2020 (to appear).

Book Chapters

  1. Muralidharan, B. and Menon, S., ``A Higher-Order Cut-Cell Methodology for Large Eddy Simulation of Compressible Viscous Flow Problems with Embedded Boundaries,'' in S. Roy, A. De and E. Balaras (eds.), Immersed Boundary Method, Computational Methods in Engineering \& the Sciences, Springer Nature, pp. 277-302, 2020.