CV-Jinghai Li

CV-Jinghai Li
Name
Jinghai Li
Position
Vice President
Affiliation
Chinese Academy of Sciences
e-mail address
jhli@cashq.ac.cn
Education
1982
1984
1987
B.S. Harbin Institute of Technology
M.S. Harbin Institute of Technology
Ph.D. Institute of Chemical Metallurgy, Chinese Academy of Sciences
Major Activities
1987~1988
Research Associate, the City University of New York, USA.
1988~1990
Research Associate, Swiss Federal Institute of Technology, Switzerland
1990~1992
Associate Professor, Deputy Director, Multi-Phase Reaction Laboratory,
Institute of Chemical Metallurgy, Chinese Academy of Sciences
1992~1995 Professor, Deputy Director, Multi-Phase Reaction Laboratory, Institute of
Chemical Metallurgy, Chinese Academy of Sciences
1995~1999
Professor, Deputy Director, Institute of Chemical Metallurgy, Chinese
Academy of Sciences
1999~2004
Director & Professor of Institute of Process Engineering, Chinese Academy
of Sciences
2004~
Professor, Vice President of Chinese Academy of Sciences
2007~2010 President, the Association of Academies of Sciences in Asia
2009-2015 Executive committee member of Interacademy Panel(IAP)
2014-
Vice President of ICSU
Honors and Awards
2012 Foreign fellow, Australian Academy of Technological Sciences and Engineering
(ATSE)
2012
TWAS Medal Lectures, the Academy of Sciences for the Developing World
(TWAS)
2011
International fellow, Royal Academy of Engineering, UK (RAEng)
2010
Lectureship Award, American Institute of Chemical Engineers, 2010, USA
2006 Foreign member, Swiss Academy of Engineering (SATW)
2003 Member of The Academy of Science for Developing Countries (TWAS)
2001 Technical Innovation Prize (first class) from Chinese Academy of Sciences
1999 Member of Chinese Academy of Sciences(CAS)
1995
National Natural Science Prize (third class) from National Committee of Science
and Technology
1993 Natural Science Prize (first class) from Chinese Academy of Sciences
Duties at Scientific Communities
1996~2005 Convener of Advisory Board of International Conferences on Circulating
Fluidized Beds
2002~ 2014
President of Chinese Society of Particuology
2009~
Vice President of Chinese Society of Energy Research
2010~
Vice President of the Nonferrous Metals Society of China
2011~
Vice President of Chinese Petroleum Society
2011~
Chair of the Advisory Board of the Baosteel-Australia Joint Research and
Development Centre
2011~ Vice President of China Association of Sciences and Technology
2012~ Vice President of Chinese Society of Chemical Engineering
2000~ Member of International Advisory Board of Chemical Engineering Science
2013~ Editor-in-Chief of Particuology, Elsevier Science
2008~ 2013 Executive editor of Powder Technology
2010~ Member of Advisory Board of Industrial & Chemical Engineering Research, ACS
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2011~ Member of IChemE Editorial Board
2013~ Editor-in-Chief of Particuology, Elsevier Science
2013~ Editorial Board of Reviews in Chemical Engineering
2013~ Editorial Board of Granular Matter
Roles in Strategy Studies
2011~2012 Co-chair with Richard Williams, the report of UK-China Energy Storage
Technology and Policy, organized by RAEng and CAS
2008~2010 Chair, the study of “ Sustainable Development in Asia”, organized by the
Asian Association of Science Academics (AASA)
2005~2007 Member of study panel ,Lighting the way - Towards a sustainable energy
future, organized by InterAcademy Council (IAC)
2008-2011
Co-chair, the Disciplinary strategy of basic research, organized by National
Science Foundation of China (NSFC) and CAS
2004
Chair, Perspectives chemical engineering in the 21st century, organized by
Division of Chemistry, NSFC
2003~2004 Vice Director of Energy Group, the Long and middle term plan for science
and technology – Energy, organized by Ministry of Science &Technology of
China
2001
Chair , the 10th Five-Year Plan for Energy High Technology R&D, organized
by Ministry of Science &Technology of China
Research
Prof. Li established the Energy-Minimization Multi-Scale (EMMS) model for gas-solid
systems. The model has been extended to many different complex systems, and generalized
into the EMMS paradigm of computation featuring the structural similarity between problem,
modeling, software and hardware, which has been implemented by constructing a
supercomputer with capacity of 1 Petaflops and has been used widely in chemical and energy
industries. He is also engaged research in clean coal technology. Currently, he is devoted to
promoting the concept of mesoscience based on the EMMS principle of compromise in
competition as an interdisciplinary science.
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