报告人🤽🏻🛹:Fanxing Li🍒,Assistant Professor
Department of Chemical and Biomolecular Engineering
North Carolina State University
报告时间💄:2011年6月1日,11:00-12:00
报告地点:北京凯发K8娱乐平台招商官方网站工物馆313会议室
Energy and global warming are two intertwined issues of critical importance in the modern era. With the pressing need for clean, efficient, and cost effective energy sources, the chemical looping strategy has evolved as a promising alternative to the traditional carbonaceous fuel conversion processes. With the aid of oxygen carrier particles, the chemical looping process efficiently converts carbonaceous fuels while capturingCO2in an effective manner by looping reaction design. Two unique chemical looping gasification processes, i.e. the Syngas Chemical Looping (SCL) and the Coal/Biomass Direct Chemical Looping (CDCL) processes are being developed and investigated at the Ohio State University (OSU). Unlike other chemical looping processes that are combustion based, the SCL and CDCL processes convert a variety of fuels including coal and biomass into a combination of hydrogen, liquid fuel, and/or electricity. Over the past 6 years, the processes have been advanced from a novel concept to successful sub-pilot (25 kWth) scale demonstrations. A 250 kWthSCL pilot plant is being designed and will be operated at the National Carbon Capture Center (NCCC).
In this presentation, the various aspects of the chemical looping process development including the composite oxygen carrier particles selection and design, lab, bench, and sub-pilot scale testing, and process optimization and techno-economic analyses will be discussed. The scale-up strategy of the chemical looping technology for commercial use will also be discussed. The ionic transfer mechanism that dictates the oxygen carrier reaction along with several exergetically optimized novel applications of the chemical looping gasification processes will be highlighted. The final portion of the talk is allocated for discussion of the presenter’s future research on renewable and fossil energy conversions.
Fanxing Li received his B.S. (2001) and M.S. degree (2004) in Chemical Engineering Department at Tsinghua University. He joined Prof. Liang-Shih Fan’s research group at the Ohio State University in September, 2004 and received his Ph.D. degree in March, 2009. Since then, he continued to work with Prof. Fan as a research scientist. Prof. Li has recently decided to join the Chemical and Biomolecular Engineering Department at North Carolina State University as an assistant professor.
Working with Prof. Fan, Prof. Li has prepared 8 funded proposals and obtained $15 million in research grants. Prof. Li has also invented and co-invented 7 patents and published 18 journal articles and book chapters. He was also the winner of numerous international awards including the prestigiousBest PhD in Particle Technology Awardin 2010.Prof. Li’s current and future research encompasses energy and environmental engineering and particle technology, with key focus on coal and biomass gasification and chemical looping technology.
