CHAPTER 7 – Sulfur Dioxide Removal
作者: Arthur L. Kohl , Richard B. Nielsen
DOI: 10.1016/B978-088415220-0/50007-0
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sci-hub.se 参考文章(38)
C.L. Smith, E. Rau, Stabilized FGD sludge goes to work Coal Technol. (Houston); (United States). ,(1981)
C.J. Wummer, W.J. Mathay, R.J. Trewella, J.K. Kieffer, D.M. Berger, Determining corrosivity of flue gas condensate Power Eng.; (United States). ,(1984)
D.C. Borsare, P.C. Rader, D. Frabotta, Process design of lime/limestone FGD systems for high chlorides Coal Technol. (Houston); (United States). ,vol. 3, ,(1982)
C.D. Stephenson, J.G. Stensland, G.A. Hollinden, An economic evaluation of limestone double alkali flue gas desulfurization systems Coal Technol. (Houston); (United States). ,vol. 3, ,(1983)
H. F. Johnstone, D. B. Keyes, Recovery of Sulfur Dioxide from Waste Gases Distillation of a Three-Component System Ammonia-Sulfur Dioxide-Water Industrial & Engineering Chemistry. ,vol. 27, pp. 659- 665 ,(1935) , 10.1021/IE50306A014
William L. Jolly, The chemistry of the non-metals Prentice-Hall. ,(1966)
P.S. Nolan, Wilcox Co., Barberton, Oh, T.H. Purdon, J.L. Hoffmann, T.W. Arrigoni, T.R. Goots, M.J. DePero, Results from LIMB extension testing at the Ohio Edison Edgewater Station ,(1991)
J.P. Gooch, E.B. Dismukes, R.S. Dahlin, M.G. Faulkner, M.G. Klett, T.L. Buchanan, J.E. Hunt, Scaleup tests and supporting research for the development of duct injection technology ,(1989) , 10.2172/5388579
J. Z. Abrams, S. J. Zaczek, A. D. Benz, L. Awerbuch, J. Haidinger, Use of seawater in flue gas desulfurization J. Air Pollut. Control Assoc.; (United States). ,vol. 38, pp. 969- 974 ,(1987) , 10.1080/08940630.1988.10466438
Kevin Scott, Terry Fannon, Jack Winnick, Electrochemical Flue Gas Desulfurization Reactions in a Pyrosulfate‐Based Electrolyte Journal of The Electrochemical Society. ,vol. 135, pp. 573- 577 ,(1988) , 10.1149/1.2095660