A Study on Emission Characteristics of Mercury from Coal Combustion at a Lab-scale Furnace |
Park, Kyu-Shik
(Department of Environment Engineering, YIEST, Yonsei University)
Lee, Ju-Hyoung (Department of Environment Engineering, YIEST, Yonsei University) Kim, Jeong-Hun (Department of Environment Engineering, YIEST, Yonsei University) Lee, Sang-Hyeob (Department of Environment Engineering, YIEST, Yonsei University) Seo, Yong-Chil (Department of Environment Engineering, YIEST, Yonsei University) |
1 | Gordon, S. and B.J. MeBride (1994) Computer program for calculation of complex chemical equulibrium compositions and applications I. Analysis., NASA Reference Publication 1311 |
2 | Meij, R., L. Vredenbregt, and H. Winkel (2002) The fate and behavior of mercury in coal-fired power plants, Air & Waste Management Association, 52, 912-917 DOI ScienceOn |
3 | Senior, C.L., A.F. Sarofim, T. Zeng, J.J. Helble, and R. Mamani- Paco (2000) Gas-phase transformations of mercury in coal-fired power plants, Fuel Processing Technology, 63, 197-213 DOI ScienceOn |
4 | U.S. EPA (1994) Method 7471A, Mercury in Solid or Semisolid Waste |
5 | U.S. EPA (2002) Test Eschka Method, Standard Test Method for Chlorine in Coal |
6 | U.S. EPA (1997) Mercury Study Report to Congress, Volume II, EPA-452/R-97-004 |
7 | 환경부(2001) 대기환경보전법, 별표 8 |
8 | EPRI (2004) Atmospheric Mercury Research Update final report, CA: 1005500 |
9 | Lee, S.J., Y.C. Seo, H.N. Jang, K.S. Park, J.I. Baek, H.S. An, and K.C. Song (2006) Speciation and mass distribution of mercury in a bituminous coal-fired power plants, Atmospheric Environment, 40, 2215-2224 DOI ScienceOn |
10 | U.S. EPA (1999) Ontario Hydro Method (ASTM D6784-02) |