SOFC Systems II

Tuesday, 25 July 2017: 08:20-12:00
Atlantic Ballroom 1/2 (The Diplomat Beach Resort)
Chairs:
Yoshio Matsuzaki and Robert Steinberger-Wilckens
08:20
88
New Applications of SOFC-MGT Hybrid Power Generation System for Low-Carbon Society
Y. Kawabata (Tokyo Gas Co., Ltd., Kyushu University), Y. Tachikawa (Next generation fuel cell research center, Kyushu University), S. Taniguchi (Next-Generation Fuel Cell Research Center (NEXT-FC), Kyushu University), Y. Matsuzaki (Tokyo Gas Co., Ltd., Kyushu University), and K. Sasaki (Kyushu University, Next-Generation Fuel Cell Resarch Center)
08:40
89
Opportunities and Challenges in Using SOFCs in Waste to Energy Systems
P. V. Aravind, A. Cavalli, H. C. Patel, M. Recalde, A. Saadabadi (Delft University of Technology), A. N. Tabish (Delft University of Technology, University of Engineering and Technology Lahore), G. Botta, A. Thallam Tattai, A. Teodoru, Y. Hajimolana (Delft University of Technology), P. Chundru (Delft university of technology), and T. Woudstra (Delft University of Technology)
09:00
90
Influence of Operating Parameters and System Design on Efficiency of Biomass and Biogas Based SOFC Systems
S. Herrmann, M. Hauck, M. Geis, S. Fendt, M. Gaderer, and H. Spliethoff (Technische Universität München)
09:20
91
Playing with Fire: Commercialization of a Metal-Supported SOFC Product for Use in Charcoal Cookstoves for the Developing World
M. C. Tucker (Lawrence Berkeley National Laboratory), B. Carreon, J. Charyasatit, K. Langston, C. Taylor, J. Manjarrez, N. Burton, M. LaBarbera, and C. P. Jacobson (Point Source Power)
09:40
92
Microtubular SOFC (mSOFC) System in Mobile Robot Applications
K. Kendall (Adelan Ltd), B. Liang (Guangdong University of Technology), and M. Kendall (University of Birmingham)
10:00
Break
10:20
93
Integration of a Solid Oxide Fuel Cell with an Absorption Chiller for Dynamic Generation of Combined Cooling and Power for a Residential Application
M. Asghari (University of California Irvine, National Fuel Cell Research Center), D. McVay (National Fuel Cell Research Center, UCI), and J. Brouwer (University of California Irvine, National Fuel Cell Research Center)
10:40
94
Highly Thermal-Integrated Flame Fuel Cell Module with High Temperature Heatpipe
H. Zeng, Y. Wang, Y. Shi (Department of Thermal Engineering, Tsinghua University), N. Cai (Tsinghua University), X. Ye, and S. Wang (Chinese Academy of Sciences)
11:00
95
Improving Operation of a 2.5kW SOFC Power System with Supervisory Control
D. Vrecko, M. Nerat, D. Vrancic, G. Dolanc (Dept. of Systems and Control, Jozef Stefan Institute), B. Dolenc (Jožef Stefan International Postgraduate School), B. Pregelj (Dept. of Systems and Control, Jozef Stefan Institute), F. Meyer, S. F. Au (SOLIDpower/HTceramix SA), R. Makkus (Hygear), and Đ. Juričić (Dept. of Systems and Control, Jozef Stefan Institute)
11:20
96
Economic Analysis and Implementation Strategies for SOFC Systems in Residential Applications
L. Zhao and J. Brouwer (National Fuel Cell Research Center, UCI)
11:40
97
A Dual Functional Solid Oxide Fuel Cell for Power Generation and Energy Storage
C. Zhang and K. Huang (University of South Carolina)
See more of: I01: Fifteenth International Symposium on Solid Oxide Fuel Cells
See more of: Fuel Cells, Electrolyzers, and Energy Conversion
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