Hydrogen Energy Engineering
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Hydrogen Energy Engineering
Total 41 Current5/5
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Jong-Eun Hong
UST full-time faculty High Temperature Energy Conversion Laboratory
- 042-860-3527
- jehong@kier.re.kr
Course
Academic Cooperation CourseResearch Field
Solid Oxide Fuel Cells, Protonic Ceramic Fuel Cells, Metallic Interconnects, H2O & CO2 co-electrolysis, Direct Ammonia fueled SOFC, Ammonia cracking catalysts, Methane Reforming catalystsResearch Field
Solid Oxide Fuel Cells, Protonic Ceramic Fuel Cells, Metallic Interconnects, H2O & CO2 co-electrolysis, Direct Ammonia fueled SOFC, Ammonia cracking catalysts, Methane Reforming catalystscloseResearch Project- Development of Direct Ammonia-fueled SOFC Technology - Advancement of core technology for commercialization of next-generation high-efficiency fuel cells for buildings - Development of Metallic Interconnect Materials and Manufacturing Process for High-Temperature Fuel Cell - Development of New Fe-Cr Alloy for SOFC Interconnect - Core technologies for highly durable SOFC stacks under dynamic thermal and load cycling - Establishment of a demonstration model to produce and manage energy employing SOFC systems - Development of Metal-supported SOFC Cell and Stack based on Ferritic Stainless Steel- Research and development of new proton-conducting solid electrolytes for use in the temperature of ≤ 450 deg. CPaper Publication- Saeed Ur Rehman, Ho-Seon Song, Hye-Sung Kim, Muhammad Haseeb Hassan, Dong-Woo Joh, Rak-Hyun Song, Tak-Hyoung Lim, Jong-Eun Hong, Seok-Joo Park, Seung-Bok Lee, “A dynamic infiltration technique to synthesize nanolayered cathodes for high performance and robust solid oxide fuel cells” (2022) J. Energy Chemistry, 70, 201. - Kim S., Joh D.W., Lee D.-Y., Lee J., Kim H.S., Khan M.Z., Hong J.E. Lee S.-B., Park S.J., Mehran M.T., Rhee C.K., Lim T.-H., “Microstructure tailoring of solid oxide electrolysis cell air electrode to boost performance and long-term durability” (2021) Chemical Engineering Journla, 410, 128318. - Park J.H., Jung C.H., Kim K.J., Kim D.,Shin H.R., Hong J.-E.* , Lee K.T.*, “Enhancing Bifunctional Electrocatalytic Activities of Oxygen Electrodes via Incorporating Highly Conductive Sm3+ and Nd3+ Double- doped Ceria for Reversible Solid Oxide Cells” (2021) ACS Appl. Mater. Interfaces, 13, 2496.- B.J.M. Sarruf, J.E. Hong* , R. Steinberger-Wilckens, P.E.V. de Miranda, “Influence of novel anode design on the performance and coke resistance towards methane directly-fed solid oxide fuel cells,” Ceramics International, 46, 5368-5379 (2020).- D.-Y. Lee, M.T. Mehran, J. Kim, S. Kim, S.-B. Lee, R.-H. Song, E.-Y. Ko, J.E. Hong* , J.Y. Huh, T.H. Lim, “Scaling up syngas production with controllable H 2 /CO ratio in a highly efficient, compact, and durable solid oxide coelectrolysis cell unit-bundle,” Applied Energy, 257, 114036 (2020).