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, 1:05 PM – Nov. 24, 2025, 1:40 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.
  
  Barwey, S., M. Ullman, R. Bielawski, andV. Raman (2025). Chemical timescale effects on detonation convergence. Computers &Fluids 289, 106550.
  
  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.
  
  Ullman, M., R. Bielawski, and V. Raman (2025). Thermodynamic trajectories in detonations with stratified reactant mixtures. Combustion and Flame 277, 114173.
  
  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
  
  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
  
  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.
  
  

  Presenters

  • Venkatramanan Raman

    University of Michigan

  Authors

  • Venkatramanan Raman

    University of Michigan

  View abstract →