1[1]Tomas N, etal. [J]. Chemosphere, 1997, 35(9): 1895~1906.
2[2]Samuel W, et al. Determination of polychlorinated dibenzo-p-dioxins and dibenzo-furans in solid residues from wood combustion by HRGC/HRMS [J]. Chemosphere, 2000,40:641 ~649.
3[3]Kilgroe J D. Control of dioxin, furan and mercury emission from municipal waste combustion [J]. J. Hazardous Mat. 1996,47: 163~ 193.
4[4]Altwicker E R. Formation of PCDD/F in MSW incinerators: lab & modeling studies [J]. J. Hazardous Mat. 1996, 47: 137~161.
5[5]Bras T G, et al. Control of PCDD/PCDF emission from municipal waste combustion systems [J]. Chemosphere, 1990,20(10-12): 1875~1882.
6[6]Griffin R D. A new theory of dioxin formation in MSW combustion [C]. The 78th Annual Meeting of APC Association,Detroit, Michigan, 1985.
7[7]Gullet B K, et al. Effect of sulfur dioxin on the formation mechanism PCDD and PCDF in municipal waste combustion[J]. Envir. Sci. Tech., 1992, 26(10).
8[8]Kanters M J, et al. Chlorine input and chlorophenol emission in the lab-scale combustion ofMSW [J].Envi. Sci. Tech., 1996, 30:2121~2116.
9[9]E Wilkstom, et al. The influence of level and chlorine source on the tormation of mono- to octa-chlorinated dibenzo-p-dioxins,dibenzofurans and coplanar polychlorinated biphenyls during combustion of an artificial municipal waste [J]. Chemosphere,2001, 43: 227~234.
10[10]E Abad, et al. Dioxin mass balance in a municipal waste incineration [J]. Chemosphere, 2000, 40:1143 ~ l 147.
