Introduction:
Name:
Jiang Cheng
Introduction:
Prof. Jiang Cheng
Tel.: 86-20-87112057: Fax: 86-20-87112057: E-mail: cejcheng@scut.edu.cn.
1995-Ph. D., (Chem. Eng.) South China University of Technology, China.
1989-M. S., (Chem. Eng. ) South China University of Technology, China.
1986-B. E., (Chem. Eng. ) Zhejianag University,China.
2007.09-2009.08: Visiting Scholar, University of Arizona, USA.
2008.06-2008.11 : Visiting Scholar, Tohoku University, Japan.
1998.09-1999.08 : Visiting Scholar, Mississippi State University, USA.
Research Areas:
Functional coating(as strippable coating) or emulsion(as textile size) for materials protection and textile/yarns dyeing, finishing and desizing-free-weaving.
Construction of surfaces with special wettability for heat transfer enhancement, microfluidics and oil-water separation.
Chemical Reaction kinetics and Mass transfer focused on (1) gas-liquid absorption, (2) Ozonation and other Advanced Oxidation Process, (3) fast reaction kinetics by stopped-flow technique.
Current Research Projects:
Construction of gradient wettability surface on copper substrate and its application in thermal performance enhancement for grooved heat pipe, sponsored by the Specialized Research Fund for the Doctoral Program of Higher Education, China and the Guangdong Natural Science Foundation.
Poly-acrylate-emulsion-based special size for one-step-dyeing and desizing-free-weaving of polyester-cotton blended denim yarns, sponsored by the Guangzhou Science and Technology Development Program .
Recent Publications:
ZHANG G., HAI J., CHENG J., et al., Emission, mass balance, and distribution characteristics of PCDD/Fs and heavy metals during cocombustion of sewage sludge and coal in power plants. ENVIRONMENTAL SCIENCE AND TECHNOLOGY, 2013,47(4):2123-2130
HU Y., CHENG J., WANG S., Thermal performance enhancement of grooved heat pipes with inner surface treatment. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 2013, 67:416-419.
QIN Q., ZHONG Y., CHENG J., et al., Preparation and characterization of porous titanium dioxide sulfonated polystyrene composite microspheres with amphiphilicity ,JOURNAL OF APPLIED POLYMER SCIENCE, 2013,129(6):3482-3489
