Wednesday July 30
Room | C309 | C307 | C140 | C308 | C240 |
Set W1 | Carbon free fuels - ammonia 1 | Turbulent combustion | Detonation (numerical) | Curved and divergent detonations | Detonation Engine 7 (numerical) |
|---|---|---|---|---|---|
09:00 | Laminar Burning Velocities of Hydrogen and Ammonia Blends (193) M. Herniksen*, J. A. Shin, D. Bjerketvedt | Analytical model of transcritical diffusion flame in a turbulent coaxial jet (5) A. Genot*, M. Bouton, L. Sanchez, H. Bezard | A Global 4-Step Combustion Modelling Strategy for Hydrogen and Blends of Hydrogen and Natural Gas (161) B Maxwell*, R. Murugesan, S. Miri, V. Premnath, D. R. Kannan, J. Jeevarajan | Experimental and Detonation-Shock Dynamics analyses of cellular detonations in diverging channels: the effects of the cross-sectional shape (53) V. Monnier, V. Rodriguez*, P. Vidal, R. Zitoun | Predictive Model for Rotating Detonation Engine Wave Structure (151) R. Burke*, T. Rezzag |
09:25 | High-Pressure Laminar Flame Speed Measurements of an Ammonia/Hydrogen/Nitrogen Fuel Blend (65) U. L. Costa*, Y. Almarzooq, A. Hardaya, M. Hay, W. Kulatilaka, E. Petersen | Experimental study of a transcritical LOx/CH4 swirl flame (7) M. Bouton*, A. Nicole, N. Fdida, S. Boulal, L. Vingert, M. Théron, A. Genot, G. Ribert | Propagation and Structure of Hybrid Aluminum-Hydrogen-Air Detonations: A Computational Approach (54) S. Guhathakurta* | Wave Reflections and Velocities Generated by Detonation Propagation Through Circular Arcs (102) S. Jackson*, D. Lont, J. Martinez, M. Short | Flow Structure in Idealized Rotating Detonation Combustor with Supersonic Inflow (156) R. Fernandez*, V. Raman |
09:50 | Impact of Detailed Molecular Transport on Ammonia/Hydrogen Ignition Delay Time Measurements in Rapid Compression Machines (234) C. Wu*, R. Schießl | Large Eddy Simulation of a LOx/CH4 swirl flame under transcritical conditions (8) M. Bouton*, A. Nicole, A. Genot, G. Ribert | Numerical Study of Detonation Propagating in Hydrogen-Nitrogen Tetroxide Mixtures (42) Z. Ni, S. Gallier, R. Mevel*, G. Wang, B. Wang | The effect of activation energy on gaseous detonation initiation and propagation in curved geometries (62) C. Chiquete*, M. Short | A model for multi-wave dynamics in a rotating detonation engine (197) S. Snijders, X. Mi*, C. Renshaw-Whitman, C. Kiyanda, A. Higgins |
10:15 | Study on end-gas auto-ignition and knock characteristics of ammonia-hydrogen blends over a wide-range equivalence ratios in a rapid compression machine (48) Q. Zhang*, Z. Yang, R. Zhang, Y. Qi, Z. Wang | Combustion Explicitly Filtered Large-Eddy Simulation: A novel approach to multi-species LES (76) A. Beroudiaux, L. Vervisch*, Q. Cerutti, P. Domingo, G. Ribert | Numerical Resolution Requirements for Narrow Channel Detonation Simulations (21) M. Martin*, A. S. Venkataraman, E. S. Oran, H. Farah | Critical Initiation of Curved Unsteady Detonation in Noble-Abel and van der Waals Gas (13) Z. Weng, R. Mevel* | Effect of Ozone Addition on the Detonation Wave Structure of Ethylene-Oxygen Systems (243) A. Karthik, A. Dahake, R.K. Singh, A. Vikram Singh* |
10:40 | COFFEE BREAK 20 min | ||||
Set W2 | Fire dynamics | Flame propagation 2 | Detonation (re)initiation 1 | Condensed-Phase Detonation | Detonation Engine 8 |
11:00 | Experimental Study on Pool Fire Behavior and the Ignition Risk of Unburnt Gases in a Reduced-Scale Chamber of Chambord Castle (164) Z. Chen*, B. Manescau, K. Chetehouna, I. Sellami, L. Lamoot | Simplified Chemical Reaction Model and Its Application in Flame Acceleration and Detonation (35) Y. Sun* | An experimental study of cellular detonations in gaseous dodecane/air mixtures (74) L. Vilasi*, B. Le Naour, P. Vidal, V. Rodriguez | Continuum Modeling of 1-D and 2-D Steady Detonation Wave Propagation in Porous High Explosives (81) J. Garno*, M. Short, S. Voelkel, C. Chiquete | Impact of Turbulence on Wave Propagation in a C2H4-O2 Rotating Detonation Engine (226) S. Connolly-Boutin*, E.Doyle, A. Côté, H. Fazal, A. Higgins, C. Kiyanda |
11:25 | Experimental Study on the Laminar Flame Speed of Hydrogen Doped with Trimethyl Phosphate (217) M. Nielsen*, U. Costa, J. Jacobs, O. Mathieu, E. Petersen | Effect of Preferential Diffusion, Activation Energy and Obstacles Separation Distance on the Acceleration of Premixed Flames (137) L. de Azevedo*, L. Fernandes, A. Mendiburu | Geometric Modeling of Detonation Propagation and Re-Initiation over Obstacles (89) R. Paknahad*, J. Crane | The Influence of High Sound Speed Confinement on Detonation Propagation in High Explosives (186) M. Short*, C. Chiquete, S. Voelkel | Effects of the Injection Inhomogeneity on the Detonation Propagation Speed in a Reflective Shuttling Detonation Engine Using Gaseous Fuel and Oxidizer (246) R. Sato*, H. Inoue, A. Kawasaki, K. Matsuoka, T. Nagaoka, Y. Oda, N. Itouyama, J. Kasahara, A. Matsuo |
11:50 | Flame acceleration mechanisms to detonation in an obstacle-laden tube : Experiments and modelling (212) K. Cheevers*, H. Yang, A. Pekalski, M. I. Radulescu | Observation of Detonation Initiation by a High-speed Spherical Projectile Using the Diaphragmless Method (131) S. Maeda*, R. Sato, K. Suzuki, Y. Seki, T. Obara | Axial Detonation Propagation in an Annular Cylinder of the TATB-Based Explosive PBX 9502 (174) G. Montoya, M. Short*, E. Anderson, S. Voelkel | ||
12:15 | Numerical Simulation of Deflagration to Detonation Process Using Adaptive Mesh Refinement Method in Hydrogen/Oxygen Premixed Gas Mixture (198) Y. Ryu*, N. Tsuboi, A. K. , Hayashi , T. Obara, X.-M. Tang | A numerical high-speed reacting flow model based on the AMReX frame (140) Q. Wen, Y. Zhang, X. Wang, H. Wen, B. Wang | Detonation Performance of a High HMX-Content Polymer Bonded Explosive (182) E. Anderson, S. Voelkel, M. Short*, R. Chicas, W. Chapman, C. Chiquete | ||
12:40 | LUNCH | ||||
13:30-13:50 | EXCURSION: buses departure | ||||