摘要
理论与模拟由于具有分析不同现象间的相互作用、掌握复杂过程的整体效应、优化技术发展的需求次序和孤立技术难点以便逐个分析解决的特点,对燃料电池这种牵涉宏观及介观多层次、多种物理过程的综合技术发展具有特殊的重要性。本文介绍了中国科技大学合肥微尺度物质科学国家实验室物理理论与技术应用研究室在建设固体氧化物燃料电池(SOFC)理论研充基地所取得的成绩,并通过具体例子说明理论与模拟对SOFC工程设计、材料发展等所能起的指导作用。希望通过成果交流,与工业和科研同行建立合作关系,更好地推进这一具有重大社会意义地技术发展。
Theory and modeling are advantageous for analyzing the interaction between various phenomena, mastering the overall effects of a complex process, prloritizing the requirement of technology development and isolating technical difficulties for solutions, and are of special importance to the fuel cell technology development that involves macro and micro multi - scale multi - physics processes. The article briefly reviews the work done so far by the physics theory and technology application group of HFNL, USTC in establishing a multi - scale, multi - physics theoretical research base for the development of SOFC technology. Numerical examples are given to illustrate the useful roles the theory and modeling can play for the SOFC engineering design and material development. Through the information exchange, we hope to build close collaborations with research and industrial communities and advance more effectively the SOFC technology that is of vital social importance.
出处
《中国材料科技与设备》
2006年第1期20-22,35,共4页
Chinese Materials Science Technology & Equipment
基金
中国科学院“百人计划”项目
关键词
固体氧化物燃料电池
理论与模拟
电化学
热分析
材料设计
Solid Oxide Fuel Cell
Theory and Modeling
Electrochemistry
Thermal Analysis
Material Design
