Research interest
Atmospheric environmental chemistry
Air pollution control
Education
2007 Ph.D. Guangzhou Institute of Geochemistry, Chinese Academy of Sciences
2001 B.S. China University of Geosciences
Professional Appointments
2009.07-present Associate professor at GUCAS
2007.07-2009. 07 Postdoctoral fellow, Tsinghua University
Courses
Atmospheric Environmental Chemistry
A treatment of all aspects of the physical and chemical behavior of air pollutants. Provides a analysis of the chemistry of atmospheric pollutants, formation, sources, sinks, thermodynamics and dynamics of atmospheric pollutant. Also contains coverage of atmospheric removal processes, including wet and dry deposition; statistical distributions of atmospheric concentrations, and a discussion of acid rain.
Principles of Air Pollution Control Engineering
A general understanding of the air pollution problems, and their origin, impact, and the related control legal system, technology and engineering, laying a good foundation for the future work of air pollution control and macro environmental management. It requires the students to grasp the legal system for air pollution control, principles of air pollution caused by energy utilization, quantitative calculation of air pollution by combustion, calculation of basic transport and dispersion of pollutant, the fluid dynamics basis for particle removal, and the principle, craft, and equipment of particle and air pollutant removal.
Selected publications
Tan J.H., Guo S.J., Ma Y.L., He K.B., Yang F.M., Yu Y, Wang J.W. (2012). Non-methane Hydrocarbons and Their Ozone Formation Potentials in Foshan, China, Aerosol and Air Quality Research.12: 383–394
Duan J. C., Tan J.H., Wang S.L., Hao J.M., Chai F.H. (2012). Size distributions and sources of elements in particulate matter at curbside, urban and rural sites in Beijing. Journal of Environmental Sciences-China, 24(1):87-94.
Yang F.M., Tan J.H., Shi Z.B., Cai Y.Y., He K.B., Ma Y.L., Duan F.K.,. (2011): Five-year record of atmospheric precipitation chemistry in urban Beijing, China. Atmospheric Chemistry and Physics, 11, 8097-8124.
Tan J.H., Guo S.J., Ma Y.L., Cheng Y, He K.B., Yang F.M. (2011). Characteristics of particulate PAHs during a typical haze episode in Guangzhou, China. Atmospheric Research, 102(1-2):91-98.
Tan J.H., Guo S.J., Ma Y.L., He K.B., Yang F.M., Yu Y, Wang J.W. (2011). Characteristics of atmospheric non-methane hydrocarbons in Foshan City, China. Environmental Monitoring and Assessment, 183(1-4):297-305.
Guo S.J., Tan J.H.,* Ma Y.L., Yang F.M., Yu Y, Wang J.W. (2011). Characteristics of atmospheric non-methane hydrocarbons during high PM10 episodes and normal days in Foshan, China. Atmospheric Research, 101(3):701-710.
Yang F.M., Tan J.H., Zhao Q, Du Z.Y., He K.B., Ma Y.L., Duan F.K., Chen G, C. (2011):Characteristics of PM2.5 speciation in representative megacities and across China. Atmospheric Chemistry and Physics, 11(11):5207-5219.
Tan J.H., Duan J. C., Cheng D.H., Wang X.H., Guo S.J., Bi X.H., Sheng G.Y., He K.B.,Fu J.M. (2009): Chemical characteristics of haze during summer and winter in Guangzhou. Atmospheric research, 94: 238–245.
Tan J.H., Duan J. C.,He K.B., Ma Y.L., Duan F.K., Chen Y., Fu J.M.. (2009): Chemical characteristics of PM2.5 during a typical haze episode in Guangzhou. Journal of Environmental Science. 21(6): 774–781.
Duan J.C., Tan J.H., Yang L, Wu S., Hao J.M. (2008):Concentration, sources and ozone formation potential of volatile organic compounds (VOCs) during ozone episode in Beijing Atmospheric research.88(1): 25-35.
Duan J.C., Tan J.H., Cheng, D.X., Bi X.H., Sheng G.Y., Fu J.M. (2007) : Sources and characteristics of carbonaceous aerosol in two largest cities in Pearl River Delta Region, China, Atmospheric Environment. 41: 2895-2903.
Tan J.H., Bi X.H., Rahn K.A., Sheng G.Y., Fu J.M. (2006): Seasonal Variation of Particulate Polycyclic Aromatic Hydrocarbons Associated with PM10 in Guangzhou, China. Atmospheric research, 80: 250–262.