Invited Talk: The Physics of Multiphase Detonations and their Application to Detonation Engines

Presentations

• The Physics of Multiphase Detonations and their Application to Detonation Engines

  ORAL · Invited

  Nov. 24, 2025, 12:05 PM – Nov. 24, 2025, 12:40 PM

  Publication: Abisleiman, S., V. Sharma, R. Bielawski, and V. Raman (2025a). Structure of three-dimensional conical oblique detonation waves. Combustion and Flame 274, 113971. <br><br>Barwey, S., M. Ullman, R. Bielawski, andV. Raman (2025). Chemical timescale effects on detonation convergence. Computers &Fluids 289, 106550. <br><br>Sharma, V., M. Ullman, and V. Raman (2025). A machine learning based approach for statistical analysis of detonation cells from soot foils. Combustion and Flame 274, 114026. <br><br>Ullman, M., R. Bielawski, and V. Raman (2025). Thermodynamic trajectories in detonations with stratified reactant mixtures. Combustion and Flame 277, 114173.<br><br>Prakash, S., R. Bielawski, V. Raman, K. Ahmed, and J. Bennewitz (2024). Three-dimensional numerical sim- ulations of a liquidRP-2/O2 based rotating detonation engine. Combustion and Flame 259, 113097<br><br>Ullman, M. and V. Raman (2024). Influence of injector conAguration on secondarywave formation and propagation in a rotating detonation combustor. Applications in Energy and Combustion Science, 100289<br><br>Van Beck, C. and V. Raman (2024a). Lagrangian-Conditioned Statistics of Detonation Propagation in a Realistic Rotating Detonation Engine. In: Proceedings of the Combustion Institute. Vol. 40.<br><br>

  Presenters

  • Venkatramanan Raman

    University of Michigan

  Authors

  • Venkatramanan Raman

    University of Michigan

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