Time 時間 | Presenter (Affiliation) 報告人(學校) | Talk Title 題目 |
International Young Scholar Forum – I Chair: Prof. Yu-Ta Chen (National Cheng Kung University) Location: Engineering Bldg. 5, 3F EE324 |
13:20 | 13:40 | Prof. Zu Puayen Tan (National Yang Ming Chiao Tung University) | Event-based imaging paradigm for high-speed flight testing |
13:40 | 14:00 | Yuki Hirayama (The University of Tokyo) | Experimental investigation of the local equivalence ratio distribution around a cavity of Mach 2.0 ethylene-fueled scramjet combustor in various combustion modes using laser-induced breakdown spectroscopy |
14:00 | 14:20 | Burinthorn Suksupaet (Kangwon National University) | Analytical prediction of acoustic damping characteristics of passive dampers for combustion instability suppression |
14:20 | 14:40 | Yoji Cho (Kyoto University) | LES analysis of combustion instabilities in aircraft gas turbine combustor: toward the utilization of sustainable aviation fuel (SAF) |
14:40 | 15:00 | Chiang Fu (National Yang Ming Chiao Tung University) | Electric-field modulation of heat release in premixed Bunsen flames with a universal scaling |
15:00 | 15:20 | Coffee Break |
International Young Scholar Forum – II Chair: Prof. Zu Puayen Tan (National Yang Ming Chiao Tung University) Location: Engineering Bldg. 5, 3F EE324 |
15:20 | 15:40 | Dr. Akira Shioyoke (Kyushu University) | Hysteresis behavior in perfectly stirred reactors for evaluating extinction of ammonia diffusion flames with highly preheated air |
15:40 | 16:00 | Dr. Annas Fauzy (National Cheng Kung University) | A reactor model study on the mechanisms of NOx reduction via ammonia lancing in methane-ammonia co-firing |
16:00 | 16:20 | Quang Sang Vo (Sejong University) | A numerical study of reactive flows and NO emissions in a gas turbine combustor for hydrogen co-firing |
16:20 | 16:40 | Yu-chang Gil (Korea Aerospace University) | Experimental study on the effects of channel height on detonation transition in a pre-detonator |
16:40 | 17:00 | Hsin-Hao Chen (National Cheng Kung University) | Hydrogen combustion characteristics and energy performance of hydrogen-powered scooter engines |