Tuesday July 29
08:30 | Plenary Lecture: Pascale Domingo, CORIA-CNRS, France Fast and capricious: combustion at high speed C140 | ||||
09:30 | COFFEE BREAK 20 min | ||||
Room | C309 | C307 | C140 | C308 | C240 |
Set T1 | Low carbon fuels 2 | Kinetics modeling 2 | Narrow detonations | DDT 3 | Detonation Engine 4 (numerical) |
|---|---|---|---|---|---|
09:50 | Experimental investigation on biogas flame stability in laboratory coaxial burners and gas stoves (165) M. Hassene, Y. Jery, B. Sarh, A.A. Yontar, H. H. El Bari, T. Boushaki* | Reaction-Diffusion Manifolds (REDIMs) - gradient embedding approach (176) S. Shashidharan*, R. Schiessl, V. Bykov, U. Maas | Delayed autoignition in Propagating Detonations (263) L. Berson*, R. Hytovick, R. Cideme, K. Ahmed | Detonation Initiation Regimes of Shock-Flame Complexes in Fuel Blends of Hydrogen and Methane (154) R. Murugesan*, S. Miri, H. Yang, K. Cheevers, V. Premnath, D.R. Kannan, J. Jeevarajan, M. Radulescu, B. Maxwell | Characterization of Methane/Cryogenic Oxygen Non-Premixed Rotating Detonation (39) Q. Meng, C. Wen* |
10:15 | Experimental CO Time-History Study of the Pyrolysis of Pentan-1-ol, Neopentanol and 2-Methyl-butan-1-ol in a Shock Tube (242) M. Khan-Ghauri*, C. Gregoire, Z. Serinyel, O. Clement, G. Dayma, M. Di Teodoro, S. N. Elliott, C. Cavallotti, O. Mathieu, E. Petersen | Kinetics of soot formation from benzene pyrolysis (132) T. Viola*, L. Carneiro, M. Idir, N. Chaumeix, A. Comandini | Lean detonability of hydrogen-oxygen mixtures in narrow channels (216) T. Westenhofer*, B. Devine, X. Shi | Collision Modes of Constant-Speed Planar Auto-Ignition waves (236) L. Bonneau, V. Robin*. A. Chinnayya | 3D Numerical Simulation on Disk Type RDE used Hydrogen-Air Premixed Gas and Non-premixed Gas with Multi-Ports Injection: Relation Between Injection Mode and Flame Index (69) T. Ito*, N. Tsuboi, K. Ozawa, A.K. Hayashi |
10:40 | Gasification of Argan nut shell biomass in throated downdraft gasifier: Shapes of syngas laminar jet diffusion flame (265) B. Sarh*, Y. Rahib, V. Belandria, T. Boushaki | An Experimental and Kinetic Modeling Approach to a Martian Fuel Combustion (77) N. Amirov, Z. Serinyel, F. Halter, F. Foucher, G. Dayma* | Experimental study of hydrogen detonations in coaxial channels (71) A. Poyet*, H. Watanabe, V. Rodriguez, A. Chinnayya | Computational Investigation of Flame Acceleration and Transition to Detonation (250) N. Dexter-Brown*, J. Jayachandran | Adaptive Mesh Refinement based Simulation of a Three-dimensional Methane-Oxygen Rotating Detonation Rocket Engine (83) M. Powers*, S. Sharma, V. Raman |
11:05 | Pyrolysis of large biomass particles: model validation and application to Coffee Husks valorization (157) M.M. Afessa*, A. Locaspi, P. Debiagi, A. Frassoldati, R. Caraccio, A.V. Ramayya, T. Faravelli | N2O Laser Absorption Measurements During Toluene/N2O Combustion (46) O. Mathieu*, A. Bhattacharya, C. M. Grégoire, E. L. Petersen | Propagation limits of cellular detonation in narrow channels (256) B. Devine*, T. Westenhofer, X. Shi | Numerical Study on Hydrogen/Air DDT in a Large Scale Channel: physical and chemical models and initial and boundary conditions (269) A.K. Hayashi*, I. Nakamori, T. Tomizuka, A. Takahashi, F. Onishi, M. Kuzunetsov, T. Kodama, Y. Tamauchi, N. Sato, N. Tsuboi | Wave Structures in Simulated 25 mm Rotating Detonation Rocket Engines (87) M. Ross*, J. Burr |
11:30 | Sensitivity of Reaction-Diffusion Manifolds (REDIMs) with respect to gradient estimates and boundary conditions (147) U. Maas, V. Bykov* | Scaling Analysis of Gaseous Detonation Limits in Tubes (189) X. Zhang, M. Zeng, A. Chinnayya, W. Fan, Q. Xiao | Numerical Study of Rotating Detonation Combustor with Backward Facing Step (10) Q. Sun*, Y. Hou, J. Wang | ||
11:55 | LUNCH 1 h 30 | ||||
Set T2 | Propellants 2 | Flame front structure and instabilities 1 | Diffusive effects in detonations 1 | DDT 4 | Detonation Engine 5 (numerical) |
13:25 | Reaction Propagation in Fumed Silica Gelled HAN-Based Propellants (191) Y.-J. Chen, I-Y. Tsai, P.-F. Yang, M.-H. Wu* | Spatially Resolved Measurements of 3D Cellular Structure of Premixed H2/O2/N2 Flames on a Porous-Plug Burner (104) Z. Yan, X. Nie, S. Wang* | The mean pressure evolution in detonation cells (259) M.I. Radulescu*, F. Zangene | Modeling of Flame Acceleration and DDT in Open-Ended Channel with Homogeneous Premixed H2-Air Mixture (150) P. Bosnic*, M. Henriksen, D. Bjerketvedt, K. Vaagsaether | Detonation Wave Velocity Error Calculation and Comparison of Methods (78) R. Hencel*, J. Hoke, M. Fotia |
13:50 | Combustion Modeling of Aluminum-Enriched Propellants Using a Surface Tension SPH Model (68) H.-S. Choi*, R. Rajak, J.J. Yoh | Three-dimensional Visualization of Flame-Vortex Entrainment in Hydrogen/Methane air Mixtures (228) S. Kia*, K. Cheevers, C. R. L. Bauwens, M. I. Radulescu | Heat Loss Effects on Thin-Channel Detonation Propagation in Hydrogen-Oxygen-Argon Mixtures (114) B. Maxwell*, C. Schmitt, J. Smith | Effect of Numerical Flame Resolution on the Acceleration History of a Premixed Hydrogen-Oxygen Flame Transitioning to Detonation (196) T. Alzer*, J. Melguizo-Gavilanes, I. Wlokas, A. Kempf | Numerical Study on an Euler-Euler model for Liquid-Gas Two-Phase Detonation in n-Heptane/Air Mixture (168) H. Park*, N. Tsuboi, A.K. Hayashi |
14:15 | Performance Parameter Estimation of Hybrid Rocket with Varying Concentration of Hydrogen Peroxide (258) V.K. Rathi*, R. Kumar | A DNS study of detonation-turbulence interaction using massless tracer particles: effects of turbulent Reynolds number (116) S. Suzuki, K. Iwata, R. Kai, R. Kurose | Deflagration-to-detonation transition in a gradient of atomic species formed by pulsed nanosecond plasma (219) V. Lafaurie*, S. Starikovskaia, P. Vidal | LES Study of Combustion Dynamics and NOx Emissions in a Full-Scale Hydrogen-Air Rotating Detonation Engine (192) P. Pal*, P. Strakey, D. Ferguson | |
14:40 | Burning characteristics of aluminium-magnesium blended hydro-reactive solid propellants (199) P. Jain, R. K. Deepachanthiran, K. Gnanaprakash* | Role of the turbulent burning in the quenching limits of gaseous detonation confined by an inert compressible layer (118) H. Watanabe*, V. Robin, A. Chinnayya | Effect of Flow Divergence on the Structure of Detonation in Rich H₂-NO₂/N₂O₄ Mixtures (229) B. Shirvani*, Z. Ni, F. Veiga-Lopez, B. Maxwell, R. Mevel, J. Luche, P. Vidal | ||
15:05 | COFFEE BREAK 20 min | ||||
Set T3 | Propellants 3 | Flame propagation 1 | Diffusive effects in detonations 2 | DDT 5 | Detonation Engine 6 (Experiments) |
15:25 | Blast wave formation during ballistic impact of consolidated metal powder projectiles (227) J. Tubman*, D. Idrici, V. Muckensturm, S. Goroshin, D. Frost, J. Loiseau | Effect of pressure on the high-temperature flame propagation of ammonia/hydrogen blends (9) M. Figueroa Labastida*, L. Zheng, L. Simitz, R. K. Hanson | Towards the large-scale modeling of turbulent combustion in fast deflagrations (122) O. Dounia*, Q. Douasbin, T. Jaravel, J.-J. Hok, F. Meziat, O. Vermorel | Numerical investigation of DDT process in a channel with grooves (145) H. Shiga*, E. Dzieminska, W. Bing, N. Tsuboi | Rotating Detonation Rocket Engine Operation in 10-mm and 25-mm Coreless Combustors (123) C. Knowlen*, T. Mundt, Q. Roberts, M. Kurosaka |
15:50 | Using Magnetic Nano Ferrites to Alter the Ignition Time Delay of Shellac-based Pyrotechnic Igniter (249) L. Bansal*, M. Naagar, A. Thakur | Real gas effects on ammonia-oxygen laminar flame speed (11) F. Veiga-Lopez, Z. Weng, R. Mevel*, G. Wang | Experimental Observations on the Reaction of Unburned Pockets (153) M. Frederick*, J. Shepherd, C. Slabaugh | Experimental analysis of the effect of initial conditions on spontaneous detonation development mechanisms for a hydrogen/n-decane mixture (178) R.N. Ezekwesili*, C. Strozzi, M. Bellenoue, M Bohon | Experimental Investigation of Heat Flux in a Small-Scale Oxygen-Hydrogen Rotating Detonation Rocket Combustor (177) F. Ditsche*, J. Petersen, W. Armbruster, M. Börner, M. Propst, M. Tajmar, C. Bach |
16:15 | Ignition characteristics of pyroelectric solid propellants containing perchlorate and nitrate based ionic oxidizers (138) A. Mukhopadhyay, G. Kanagaraj* | Cellular Instabilities and Laminar Burning Velocities of Spherically Expanding H2/air flames doped with methane and diluted with water (163) P. Dievart*, A. Zemba, A. Mousse Rayaleh, T. Katsumi, N. Chaumeix | Role of Viscosity in the Detonation Cell Cycle (252) P. Meagher*, X. Zhao | Elucidating the Mechanism of Shock Wave Generation within a Subsonic Reaction Wave through Extension of Zel'dovich's Ignition Front Theory (248) H. Okada*, Y. Morii, A. Tsunoda, K. Maruta | Airbreathing Kerosene-Fueled Detonation Combustion Chamber-Comparison of Different Combustion Modes (180) M. Kawalec*, A. Bilar, K. Benkiewicz |
16:40 | Numerical Simulation Study of the Thermal Response Process of GAP Solid Propellant under Nozzle Structural Constraints (51) J. Yang, H. Xia, X. Wang, S. Guo, Y. Wu* | Measuring Laminar Flame Speed of Lubrication Oil Mist in Air and CH4-Air Mixtures (235) J. Jacobs*, M. A. Turner, E. L. Petersen | The burning mechanism of non-reacted pockets in cellular detonations (253) F. Zangene*, M.I. Radulescu | GPU-Accelerated High-Performance Numerical Simulation of Detonation Using Detailed Chemical Kinetics (175) X. Wang, Y. Zhang, Q. Wen, H. Wen, B. Wang | |
Short discussion session 15 min | |||||