Ph.D. candidate at HERO Lab. CFD analysis for high-temperature reactor Turquoise hydrogen production using methane pyrolysis Contact: leesoo9352(at)kentech.ac.kr
Ph.D. candidate at HERO Lab. Modeling and simulation of alkaline electrolysis for green hydrogen production. Fuel cell system for marine applications. Contact: su.lim(at)kentech.ac.kr
Ph.D. candidate at HERO Lab. Analyses and optimization of hydrogen energy systems. Dynamic modeling and simulation for fuel cell and electrolysis. Contact: yujin.choi(at)kentech.ac.kr
Ph.D. candidate at HERO Lab. Digital Twin Technology for Hydrogen Energy Systems. Integration of Ammonia Cracking and Gas Turbnine Combined Cycle System optimization and economic model development Contact: sangyong.lee(at)kentech.ac.kr
Ph.D. candidate at HERO Lab. Hydrogen Production using Nuclear Energy and Solid Oxide Electrolysis Cell (SOEC) Process modeling and optimization, dynamic simulation, economic analysis Contact: seunghyeon.jo(at)kentech.ac.kr
Mater candidate at HERO Lab. Research on model-based control and design of fuel cell system Leveraging predictive control for efficient system performance Contact: wavekey(at)kentech.ac.kr
Integrated Ph.D. candidate at HERO Lab. Ammonia-fueled Solid Oxide Fuel Cell (SOFC) Experimental work for performance characterization and stack development Contact: bsw2880(at)kentech.ac.kr
Master candidate at HERO Lab. Ammonia-fueled Solid Oxide Fuel Cell (SOFC) SOFC system simulation and optimization Contact: bjh050(at)kentech.ac.kr
Mater candidate at HERO Lab. Life Cycle Assessment (LCA) for hydrogen energy SOFC system simulation Contact: tariq(at)kentech.ac.kr