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

Post-Doc Researcher at HERO Lab. Advanced energy conversion systems including sCO2 based systems and fuel cell. Hybridization and optimization of renewables based systems.

Secretary of HERO Lab (행정연구원) 연구과제 관리, 연구실 행정 총괄 업무 Contact: ewe1210(at)kentech.ac.kr

Assistant professor at Korea polytechnic VII Department of petrochemical process External researcher of HERO Lab. Simulation and optimization of Power-to-X systems Exergy analysis and economic analysis of hybrid energy systems

Professor at Technische Universität Berlin Institut für Energietechnik Exergy-based methods for refrigeration systems Prof. Morosuk was a co-supervisor of Prof. Lee during his study at TU Berlin and has been co-working with Prof. Lee in the area of environmental analysis and life cycle assessment of energy systems.

Emeritus Professor at Technische Universität Berlin Institut für Energietechnik Energietechnik und Umweltschutz Prof. Tsatsaronis was a supervisor of Prof. Lee during his study at TU Berlin and has been co-working with Prof. Lee in the area of exergy analysis, economic analysis of energy systems.