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S3-12th International Symposium on Solid Oxide Fuel Cells (SOFC): Materials, Science and Technology

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Solid oxide fuel cells (SOFC) offer potential for clean and efficient power generation from a wide variety of fuels ranging from hydrocarbons to renewables and coal derived fuels. Advanced systems configurations are currently being developed for applications in centralized and distributed stationary generation using SOFCs. Considerable progress has been made in automotive auxiliary power generation as well as in man portable and unmanned operation. With demonstrated advantages of high electrical efficiency, lower emissions (greenhouse gas, SOx, NOx, VOC and particulate matters) and ease of products configurability, major focus of interest continues to be on systems research and development, products engineering and cost effective manufacturing under the sponsorship of government agencies and private industries. Although significant progress has been made in the areas of cell and stack materials, component fabrication, stack and systems simulation and design, fuel processing and systems operation on a wide variety of liquid and gaseous hydrocarbons, technology development continues towards the identification of bulk and interfacial modifications for performance enhancement, understanding of ageing phenomena, accelerated testing and minimization of degradation as well as cost reduction at both materials and process levels. Significant challenges still exist in the areas of stacking cells, fracture mechanics of ceramic components, thermal management, and BOP component development at both sub-kWe and large multi-kWe levels. Future energy systems should cope with randomly distributed renewable energy sources (wind, sun) under certain circumstances, as power generation cannot be planned or predicted and the storage of any excess energy is only possible to a limited extent. High-temperature electrolysis can solve this problem providing highest efficiency for generation of chemicals and products from excessive power. In electrolysis, the regenerative energy is directly converted into hydrogen or/and into a synthesis gas which can be further processed into any fuel. The production of methane, synthetic oils or diesel, in particular, provides promising synergies. So, it will be possible to couple electricity grid, natural gas grid and chemicals production. For this reason the research on Solid Oxide Electrolysis is important task which helps to understand the opportunities and limitations of this new technology for future energy systems. The primary purpose of this symposium is to provide an international forum for scientists and engineers to present recent technical progress, and to exchange ideas and technical information on various aspects of solid oxide fuel cells.

 

Proposed Session Topics

  • Electrolytes; oxygen ion, proton and mixed conductors; conduction mechanisms 
  • Electrode materials and microstructural engineering; electrode processes, defect chemistry, analytical techniques 
  • Ceramic and metallic interconnects; degradation mechanisms, coatings, accelerated testing and life prediction
  • Sealing materials, designs and approaches; compatibility and interactions
  • Novel processing and design of cell and stack materials
  • Mechanical and thermal properties, electrochemical performance and stability
  • Electrical and structural reliability 
  • Surface and interfacial reactions; materials transport and electrode poisoning; catalytic degradation, carbon formation
  • Degradation modeling and computational simulation of cells and stacks 
  • High temperature electrolysis: steam, steam and CO2, chemical process engineering utilizing SOEC
  • Fuel processing; reforming using supported/unsupported catalysts; carbon and sulfur contaminations, gas separation membranes
  • System design and demonstration
  • Applications: Centralized and distributed generation, CHP and μ-CHP, Hydrogen production, portable and unmanned operations

Symposium Organizers

  • Narottam P. Bansal, NASA Glenn Research Center, USA
  • Mihails Kusnezoff, Fraunhofer IKTS, Germany
  • Vincenzo Esposito, DTU Energy Conversion, Denmark
  • Tatsumi Ishihara, Kyushu Univ., Japan
  • Ruey-Yi Lee, Institute of Nuclear Energy Research, Taiwan
  • Nguyen Q. Minh, Consultant, USA
  • Mogens Mogensen, Risoe National Lab, Denmark
  • Prabhakar Singh, Univ. of Connecticut, USA
  • Federico Smeacetto, Politecnico di Torino, Italy
  • Jeffrey W. Stevenson, Pacific Northwest National Lab, USA
  • Toshio Suzuki, National Institute of Advanced Industrial Science and Technology (AIST), Japan
  • Sascha Kühn, Ezelleron, Germany

 

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