Monday July 28
08:30 | WELCOME | ||||
09:00 | Plenary Lecture: Kareem Ahmed, University of Central Florida, USA Detonations from hypersonic propulsion engines to exploding stars C140 | ||||
10:00 | COFFEE BREAK 20 min | ||||
Room | C309 | C307 | C140 | C308 | C240 |
Set M1 | Low carbon fuels 1 | Ignition 1 - shock tubes | Models - stability | DDT 1 | Detonation Engine 1 (injection) |
|---|---|---|---|---|---|
10:20 | Visualization of Internal Structural Changes during Transient Pyrolysis of Wood Containing Ammonium Nitrate (14) T. Daitoku*, T. Tsuruda, T. Kinugasa | Challenges Associated with Shock-Tube Ignition Experiments in Undiluted Oxygen Environments (44) M. Sandberg*, E. Petersen | News from the Chapman-Jouguet detonation front: A Velocity-Entropy Invariance theorem (172) P. Vidal*, R. Zitoun | Transition to detonation due to shock focusing in C2H6-air mixtures (28) W. Rudy*, A. Pekalski | High-Speed Schlieren Imaging of Rotating Detonation Engine Fuel Injection During Operation (58) M. Stocke*, T. Wanstall, B. Sell, J. Hoke, M. Fotia |
10:45 | Experimental study on the effects of turbulence and ambient composition on butanol droplet evaporation (57) P. Cheung, A. Arabkhalaj, M. Birouk* | Large Eddy Simulations of Remote Ignition in Methane/Air mixtures behind Reflected Shock Waves (204) T.A. Kashif*, J. Subburaj, A. Farooq | Effect of Curvature on the Neutral Stability Boundary for Cellular Gaseous Detonations (264) M. Short*, S. Voelkel, C. Chiquete | Flame morphology during acceleration in unobstructed channels: effect of fundamental combustion properties (61) C. Mejía-Botero, F. Virot, L.F. Figueira da Silva, J. Melguizo-Gavilanes* | Design of a Premixed Rotating Detonation Engine with a Porous Injector (60) Y. Koyama*, N. Suto, K. Matsuoka, N. Itouyama, A. Kawasaki, H. Watanabe, J. Kasahara, M. Yasui, Y. Ide |
11:10 | Effects of Equivalence Ratio on the Fire Characteristics of Hydroprocessed Esters and Fatty Acids derived Sustainable Aviation Fuel for Aeronautical Application (108) A.M. Raji*, B. Manescau, K. Chetehouna, L. Lamoot | Changes in Ignition Behavior of Aged Fuels and Lubricants Behind Reflected Shock Waves (134) R. Juarez*, A. Lira, M. Abulail, E. L. Petersen | Stabilizing Effects of Real Gas for Cellular Detonations (12) Z. Weng, R. Mevel*, Z. Ren, S. Shuai | Suppression of Deflagration-to-Detonation Transition by Sintered Wire Mesh (67) K. Kashiro*, K. Ishii | Experimental Research of the Effect of the Slit on the Coupled Rotating Detonation Engine (91) A. Nakama*, S. Inamori, Y. Ide, N. Itouyama, K. Matsuoka, M. Yasui, J. Kasahara, A. Matsuo, I. Funaki, H. Tanno |
11:35 | Thermal Properties of Some African Tropical Woods: Okoume, Bilinga, Movingui, Ozigo and Nove and their Potential as Biofuel Feedstocks (109) A.M. Raji*, B. Manescau, K. Chetehouna, S. Ekomy Ango | Ignition Behavior of Hydrogen in the Presence of Lube Oil Behind Reflected Shock Waves (209) M. Adil*, J. Subburaj, T. Kashif, F. T. Hong, E. Cenker, A. Ramadan, A. Farooq | Decay of Shock Perturbations: A Geometrical Shock Dynamics Study (267) A. Sow*, Y. Amor, M. I. Radulescu | Fast-Flame to Detonation Transition in a Round Tube (207) M. Moran*, G. Ciccarelli | Effect of Injector Arrangement in Disk-type Rotating Detonation Engine (270) M. Mizota*, S. Yamazaki, S. Matsuzono, E. Dzieminska |
12:00 | LUNCH 1 h 30 | ||||
Set M2 | Propellants 1 | Optical diagnostics - kinetics 1 | Liquid phase detonation 1 | DDT 2 | Detonation Engine 2 (disk shape) |
13:30 | Effects of an Fe-Based MOF Additive on the Burning Rate of AP/HTPB Composite Propellants (43) T. Swindell, J. D. Pantoya*, T. E. Sammet, E. Petersen | Towards the Development of an IR Spectra-Based Approach for Characterizing Fuel Combustion Behavior (19) P. Biswas*, V. Boddapati, A. Klingberg, H. Wang, R. K. Hanson | A 1D Lagrangian scheme on NASG stiffened medium model with varying cross-section area (188) W. Wang*, M. I. Radulescu | The influence of nitrogen dilution level in stoichiometric H2-O2 mixture on the transition to detonation in a 90-deg wedge (130) W. Rudy*, A. Teodorczyk | Effects of Exhaust Dilution in a Disk-shaped Pressure Gain Combustor (29) A. Lim*, P. H. Chua, X. Huang, P.-H. Chang, Z. W. Teo, J.-M. Li, C. J. Teo, B. C. Khoo |
13:55 | Influence of Triphenylphosphine-Coated Aluminum Nanoparticles on the Combustion Dynamics of Al/CuO Nanothermites Mesh in Confined Spaces (129) X.-R. Lu, M.-H. Wu*, Y.-S. Cheng, C.-W. Huang | Laser Absorption Measurements of H35Cl in a Shock Tube for Investigating the Chemical Kinetics of Rocket Propellants (31) C. Gregoire*, E. L. Petersen | Decane droplet combustion onset in air behind a Mach 5.3 shock wave (201) F. Virot*, A. Claverie | Detonation Propagation over a Surface of Water in Oxyhydrogen Mixture (146) S. K. Mall*, E. Dzieminska, A. Koichi Hayashi, I. Nakamori, T. Tomizuka, A. Takahashi, F. Onishi, T. Kodama, N. Sato, N. Tsuboi, S. Numao, S. Yoshimura, T. Suzuki | Experimental Investigation of the Effects of Geometry on the Performance Characteristics of the Disk-shaped Pressure Gain Combustor (30) P.H. Chua*, A. Lim; Z.W.A. Teo, X. Huang, J.-M. Li, C.J. Teo, B.C. Khoo |
14:20 | Laser Ignition of Al-MoO₃ Thermites (245) S. Riel*, A. Higgins, F. Kelly, J. Loiseau | Experimental Investigation of Liquid Fuel Autoignition: Insights from Advanced Optical Diagnostics (159) C. Fouchier*, J. Shepherd | Shock-induced breakup of liquid fuel jet: a coupled momentum and energy transfer theory (223) A. Jayaraman*, N. Kateris, E. Genter, H. Wang | The Role of Perturbations on the Shock-Flame Complex Leading to Detonation (205) S. Miri*, K. Cheevers, H. Yang, R. Murugesan, V. Premnath, D. Rajagopalan Kannan, J. Jeevarajan, B. Maxwell, M. Radulescu | Symmetric Square Lattice Injector Pattern Design and Testing for a Bi-Propellant Rotating Detonation Engine (142) V. Joseph*, J. Kasahara, K. Matsuoka, N. Itouyama, M. Yasui, Y. Ide, A. Matsuo, I. Funaki, K. Higashino |
14:45 | Effect of metal and metal hydride additives on combustion characteristics of composite solid propellants (144) R. K. Deepachanthiran*, K. Gnanaprakash | Ignition delay time and multi-speciation measurements of ammonia/C1 mixtures in shock tube (103) N. Farzana*, H. Karas, M. Li, B. Shu, R. Fernandes, S. Agarwal, D. Zhu | Unsteady Effects on Pathological Droplet-fueled Detonations (233) R. Hernández Sánchez*, J. Carpio Huertas, D. Martínez Ruiz, C. Huete | DDT Induction Distance Measurements for Methane/hydrogen/oxygen (211) T. Elia*, G. Ciccarelli | Operational Characteristics and Performance of the Disk-RDRE (183) K.-H. Lee*, M.-S. Jo, G.-U. Mo, S.-W. Choi, B-K. Sung, J.-Y. Choi |
15:10 | COFFEE BREAK 20 min | ||||
Set M3 | Carbon free fuels - metals | Ignition 2 - characteristics | Liquid phase detonation 2 | Explosions | Detonation Engine 3 (Cooling and heat transfer) |
15:30 | Ignition mechanisms of aluminum particles in hydrocarbon products (45) D. Keo*, P. Graumer, C. Chauveau, S. Courtiaud, F. Halter | Numerical Studies on Minimum Ignition Energies of Lean Primary Reference Fuels at Elevated Pressure (136) C. Wu*, R. Schießl, U. Maas | Detonability and Propagation Limits of Spray Detonations in Jet Fuel-Air Mixtures (33) S.S. Dammati*, A. Poludnenko | Background oriented Schlieren measurements for pressure relief systems in the free field (6) M. Gerbeit*, H. Seeber, D. Grasse, M. Donner, D. Krentel | Experimental Study of Heat Transfer to Thin Wall in Water-Cooled Cylindrical Rotating Detonation Engine (92) S. Inamori*, A. Nakamori, Y. Ide, N. Itouyama, K. Matsuoka, M. Yasui, J. Kasahara, A. Matsuo, I. Funaki, K. Higashino |
15:55 | In-situ measurement of spectral emissivity of aluminum flame combustion products using saturated atomic lines (82) E. Antar*, C. Wong, C. Heng, N. Chepel, S. Goroshin, J. Bergthorson | Sustainable aviation fuels vs. Jet A1: experimental insights into laminar burning velocity and minimum ignition energy (152) N. Hamamousse*, E. Brodu , C. Strozzi, B. Boust, J. Sotton, M. Bellenoue, C. Viguier | Hydrodynamic Droplet Breakup Modeling in Liquid-Fueled Detonations (113) S. Agee, M. Paudel, P. Ramaprabhu, J. McFarland* | PDRFoam performance for flame acceleration in congested quiescent clouds (200) J. Melguizo-Gavilanes*, A. Pekalski | Film Cooling Implementation in Micro Rotating Detonation Combustor (101) M. Tagliaferri*, A. Picchi, M. Polanka, A. Andreini, B. Facchini |
16:20 | Characterization of the impact of oxygen concentration on the alumina cloud surrounding a burning aluminum droplet (90) H. Keck*, C. Chauveau, G. Legros, S. Gallier, F. Halter, G. Dayma | Experiments on Ignition Delay and Low Limit Boundary for RP-3 Kerosene (194) S. Xu*, E. Liu, L. Zhang | Theory and Canonical Experiment Development for Strong Shock-Induced Droplet Drag and Vaporization (115) N. Kateris*, E. Genter, A. Jayaraman, H. Wang | Explosive Characteristics of a Typical Li-ion battery Vent Gases with Inert Gas Addition (195) A. Lindalen*, D. Bjerketvedt, M. Henriksen | Impact of heat transfer on a 1 inch rotating detonation rocket engine (213) D. Ramesh*, P. Meagher, X. Zhao |
16:45 | Silicon energetic dust particles as carbon-free energy carriers (97) H. Heng*, C. Mani, N. Chepel, K. Mangalvedhe, E. Antar, S. Goroshin, J. Bergthorson | Study on the combustion characteristics of high temperature activation gas-solid binary fuel (169) H. Wang*, G. Song, W. Song | Experimental Investigation of Fuel Droplet Size Effects on Liquid Cloud Detonations (117) T. Brown, R. Hytovick, K. Ahmed* | Experimental and modeling study on the thermal response of vertical storage tanks with different filling levels (37) X. Yu*, J. Bai, C. Zhu, R. Zong | |
17:10 | Effect of heating process on the ignition behavior of fine iron particles–A theoretical analysis (112) X. Mi* | A real liquid Volume-of-fluid framework with evaporation dynamics (187) L. Angelilli*, V. Raman | |||
Short discussion session 15 min | |||||
18:30 | Early Career Researcher Night at MacLaren's on Elgin | ||||