General

Songgeng Li, Professor at Institute of Process Engineering, Chinese Academy of Sciences; University of Chinese Academy of Sciences; Deputy Director of State Key Laboratory of Multiphase Complex Systems,

Email:sgli@ipe.ac.cn, Tel:010-82544815

Research Areas

Biomass and coal conversions, CO2 capture and pollutants control, which encompasses pyrolysis and gasification via thermal and/or catalytic method, NO reduction, mercury emission control

Education

Ph.D from Institute of Process Engineering, Chinese Academy of Sciences, 2004

M.S. from Northeastern University, China 1999

B.S.  from Northeatern University, China 1996

Experience

   
Work Experience


2004-2006   Visiting Scholar, Institute for Combustion Science and Environmental Technology, Western Kentucky University, USA


2006-2009  Postdoctoral fellow, Department of Chemical and Biomolecular Engineering, The Ohio State University, USA


2009-present  Professor, Institute of Process Engineering, Chinese Academy of Sciences


2015~present  Professor, University of Chinese Academy of Sciences



Teaching Experience
   

Publications

Publish more than 40 peer review papers and one book chapter

Papers

(1) Chemical Forms of the Fluorine, Chlorine, Oxygen and Carbon in Coal Fly Ash and Their Correlations with Mercury Retention, Journal of Hazardous Materials, 2016.
(2) Catalytic Cracking of Pyrolytic Vapors of Low-Rank Coal over Limonite Ore, Energy & Fuels, 2016.
(4) Fusion Characterization of Biomass Ash, Thermochimica Acta, 2016.
(5) Integration of coal pyrolysis process with iron ore reduction: Reduction behaviors of iron ore with benzene-containing coal pyrolysis gas as a reducing agent, Chinese Journal of Chemical Engineering, 2016.
(6) Experimental Study  of Enhanced Phosphogypsum Carbonation with Ammonia under Increased CO2 Pressure, Journal of CO2 Utilization, 2015.
(7) Coal Pyrolysis in a Laboratory-Scale two stage reactor: catalytic upgrading of pyrolytic vapors, Chemical Engineering and Technology, 2014.
(8) Emission characteristics of Cd, Pb and Mn from coal combustion:field study at coal-fired power plants of China, Fuel Processing Technology, 2014.
(9) Impact of the Temperature, Pressure, and Particle Size on Tar composition from pyrolysis of three ranks of Chinese coals , Energy and Fuels, 2014.
(10) Pyrolysis beharvior of large coal particles in a lab-scale bubbling fluidized bed , Energy and Fuels, 2013.
(11) Rapid pyrolysis of wheat straw in a bench-scale circulating fluidized bed downer reactor, Chemical Engineering and Technology, 2012.
(12) Displacement behavior of methane adsorbed on coal by CO2 injection, Industrial and Engineering Chemistry Research, 2011.
(13) Supercritical pure methane and CO2 adsorption on various rank coals of China: experiments and modelling, Energy and Fuels, 2011.

Patents
   

Research Interests

Biomass and coal conversions, CO2 capture and pollutants control, which encompasses pyrolysis and gasification via thermal and/or catalytic method, NO reduction, mercury emission control

Honors & Distinctions


Houdebang Chemical Engineering Science and Technology Award for Young Researchers, Chemical Industry and Engineering Society of China, 2015