1 Dong, C.Q., Jin, B.S., Zhong, Z.P., Lan, J.X., Li, F., Huang, Y.J., “Acid gas emissions during mixing firing of municipal solid waste and coal in a circulating fluidized bed”, Proc. Chinese Soc. Electric. Eng., 22(3), 32—37(2002). 2 Li, J.X., Yan, J.H., Chi, Y., Ni, M.J., Cen, K.F., Heavy metals emission from a fluidized-bed MSW incinerator, Proc. Chinese Soc. Electric. Eng., 23(12), 179—183(2003). 3 Floyd, H., Anthony, L., “Analysis of heavy metal emis-sion data from municipal waste combustion”, J. Hazard. Mater., 47, 77—102(1996). 4 Linak, W., Wendt, P., Jost, O.L., “Toxic metal emissions from incineration: Mechanisms and control”, Prog. En-ergy Combust. Sci., 19(2), 145—185(1993). 5 Luo, Y., Study on Heavy Metal Distribution and Treat-ment in MSW Incineration, Ph.D. Thesis, Chongqing University, Chongqing (2004). (in Chinese) 6 Li, R.D., Mechanisms of Melting Process of Municipal Solid Waste Incineration Fly Ashes: Micro- and Lab-Scale Studies, Ph. D. Thesis, Zhejiang University, Hangzhou (2002). (in Chinese) 7 Abanades, S., Flamant, G., Gauthier, D., Modeling of heavy metal vaporisation from a mineral matrix, J. Haz-ard. Mater., 88(16), 75—94(2001). 8 Hasan, B., Hermann, M., “Factors Determining the Ele-ment Behavior in Municipal Solid Waste Incinerators”. Environ. Sci. Technol., 34, 2501—2506(2000). 9 Kuen-Sheng, W., Kung-Yuh, C., Shin-Ming, L., Chi-Chung, T., Chang-Jung, S., “Effects of chlorides on emissions of hydrogen chloride formation in waste in-cineration”, Chemosphere, 38(7), 1571—1582(1999). 10 Chiang, K.Y., Wang, K.S., Tsai, C.C., Sun, C.J., “Forma-tion of heavy metal species during PVC-containing simulated MSW incinerator”, J. Environ. Sci. Health, 36(5), 833—844(2001). 11 Wey, M.Y., Hwang, J.H., Chen, J.C., “The behavior of heavy metal Cr, Pb and Cd during waste incineration in fluidized bed under various chlorine additives”, J. Chem. Eng. Japan, 29(3), 494—500(1996). 12 Li, J.X., Yan J.H., Chi, Y., Zhang, R.B., Ni, M.J., Cen, K.F., “Effects of chlorine on the transfer of heavy metals in municipal solid waste (MSW) incineration process”, J. Fuel Chem. Technol., 31(6), 579—583(2003). (in Chi-nese) 13 Xi, Y.Y., Li, H.J., Fan, W.B., “Dynamic characteristics anlysis on physical and chemical properties of municipal domestic solid waste”, Shanghai Environ. Sci., 21(12), 721—724(2002). (in Chinese) 14 Tan, Z.X., Li, H.B., Wang, X.L., Jia, X.G., Yan, J.H., “Species transformation of trace elements and their dis-tribution prediction in dyestuff residue incineration”, Chin. J. Chem. Eng., 15(2), 268—275(2007). (in Chi-nese) 15 Dirk, V., Alfons, B., “Thermodynamic behavior of metal chlorides and sulfates under the conditions of incinera-tion furnaces”, Environ. Sci. Technol., 30, 50—56(1996). 16 Vogg, H., Braun, H., Metzger M., Schneider, J., “The specific role of cadmium and mercury in municipal solid wastes incineration”, Wastes Manage. Res., 4, 5—74(1986). 17 Fernandez, M.A., Martinez, L., Segarra, M., Garcia, J.C., Espiell, F., “Behavior of heavy metals in the combustion gases of urban waste incinerators”, Environ. Sci. Technol., 26(5), 1040—1047(1992). 18 Ho, T.C., Lee, H.T., Kuo, T.H., Chen, D., Bosticle, W.D., “Analysis of incinerator performance and metal emis-sions from recent trial and test burns”, Hazard. Waste Hazard. Mater., 11, 53—70(1994). 19 Dirk, V., Alfons, B., “Thermodynamic behavior of metal chlorides and sulfates under the conditions of incinera-tion furnaces”, Environ. Sci. Technol., 30, 50—56(1996). 20 Jorg, W., Stucki, S., “Similarity laws for the tubular fur-nace as a model of a fixed-bed waste incinerator”, Chem. Eng. Technol., 22(3), 209—222(1999).
|