cmbstudy

CMBstudy

This is a collaboratory project which combine researchers from NCHU and NTU to investigate and assess the air pollution from Taichung coal-fired power plant at Lukang, Changhwa, Taiwan.

The following references collected by Dr. justandine C.P. Chio and shared with the members in the CMB study team.

If any copyright problem occurred in following descriptions, please contact me. Thank you.

Total Collected References

England GC, Zielinska B, Loos K, Crane I, Ritter K, 2000. Characterizing PM_2.5 emission profiles for stationary sources: comparison of traditional and dilution sampling techniques. Fuel Processing Technology 65-66: 177-188.

Sheya SA, Prabhu A, Chang MC, Chow JC, Watson J, 2006. Method comparison between a cyclone/impinger and a dilution tunnel for the characterization of particulate matter from a ferrous metal foundary. J. Air Waste Manage. Assoc. (submitted).

Srvastava A, Jain VK, 2007. A study to characterize the suspended particulate matter in an indoor environment in Delhi, India. Build. Environ. 42: 2046-2052.

Yoo JI, Kim KH, Jang HN, Seo YC, Seok KS, Hong JH, Jang M, 2002. Emission characteristic of particulate matter and heavy metals from small incinerator and boilers. Atmos. Environ. 36: 5057-5066.

Hao J, Wang L, Shen M, Li L, Hu J, 2006. Air quality impacts of power emissions in Beijing. Environ. Pollut. (In press).

Hien PD, Bac VT, Thinh NTH, 2005. Investigation of sulfate and nitrate formation on mineral dust particles by receptor modeling. Atmos. Environ. 39: 7231-7239.

Karademir A, 2006. Evaluation of the potential air pollution from fuel combustion in industrial boilers in Kocaeli, Turkey. Fuel 85: 1894-1903.

Chow JC, Watson JG, Kuhns H, Etyemezian V, Lowenthal DH, Crow D, Kohl SD, Engelbrecht JP, Green MC, 2004. Source profiles for industrial, mobile, and area sources in the Big Bend Regional Visibility and Observational study. Chemosphere 54: 185-208.

See SW, Balasubramanian R, Rianawati E, Karthikeyan S, Streets DG, 2007. Characterization and source apportionment of particulate matter ≤ 2.5 μm in Sumatra, Indonesia, during a recent peat fire episode. Environ Sci Technol (in press).

Chow JC, Watson JG, Chen LWA, Ho SSH, Koracin D, Zielinska B, Tang D, Perera F, Cao J, Lee SC, 2006. Exposure to PM2.5 and PAHs from the Tong Liang, China epidemiological study. J Environ Sci Health A 41: 517-542.

Lee SW, He I, Young B, 2004. Important aspects in source PM2.5 emissions measurement and characterization from stationary combustion systems. Fuel Processing Technology 85: 687-699.

Otero-Rey JR, López-Vilariňo JM, Alonso-Rodríguez E, Muniategui-Lorenzo S, López-Mahia P, Prada-Rodríguez D, 2003. As, Hg, and Se flue gas sampling in acoal-fired power plant and their fate during coal combustion. Environ Sci Technol 37: 5262-5267.

Seagrave J, McDonald JD, Bedrick E, Edgerton ES, Gigliotti AP, Jansen JJ, Ke L, Naeher LP, Seilkop SK, Zheng M, Mauderly JL, 2006. Lung toxicity of ambient particulate matter from southeastern U.S. sites with different contributing sources: Relationships between composition and effects. Environ Health Perspect 114: 1387-1393.

Page modified on Mar 6th, 2008.