[I] Müezzinoğlu, A., Hava Kirliliği ve Kontrolünün Esasları, Dokuz Eylül Üniv. Yayınları, No: 0908, İzmir, 1987.
[2] Biswal, K. C. and Roy, G. K., "Sulphur Dioxide Pollution Control by Wet Scrubbing Methods", Reprinted from the Journal of the Institution of Engineers (India), 62, 120¬126, 1982.
[3] Hamm, V. H. and Hüller, R., "Das zweistufige Knauf-
Research-Cottrell-Verfahren zur Rauchgas-
entschwefelung am Beispiel des Kraftwerkes Franken",
Zement-Kalk-Gips, 6, 313-317, 1982. [4] Gutberlet, V.H., "Gips aus der Rauchgas-entschwefelung",
VGB
Kraftwerkstechnık
, 63 (4), 335-344, 1983. [5] Kaminsky, W., "Verfahren zur Enstschwefelung von
Rauchgas", Chem.-Ing.-Tech, 55 (9), 667-683, 1983. [6] Kohl, A. and Nielsen, R., "Gas Purification", Gulf Publishing
Company, Houston, Texas, 469-603, 1997. [7] Mohn, U., "Steinmüller-Rauchgasent-schwefelung", VDI-
Berichte 495, 83-89, 1984. [8] Schönbucher, B., "Rauchgasentschwe-felungsanlagen im
Kraftwerk Heilbronn", VDI-Berichte, 495, 93-100, 1984. [9] Lunt, R. R., Little, A. D. and Cunic, J. D., "Profiles in Flue
Gas Desulfurization", AIChe, New York. 1-140, 2000. [10] Ramachandran, P.A. and Sharma, M. M., "Absorption with
Fas Reaction in a Slurry Containing Sparingly Soluble Fine
Particles", Chemical Enginerring Science, 24, 1681-1689,
1969.
[II] Uchida, S. and Wen, C. Y., "Rate of Gas Absorption into a Slurry Accompanied by Instantaneous Reaction", Chemical Enginerring Science, 32, 1277-1281, 1977.
[12] Bjerle, I., Bengtsson, S. and Farnkvist, K., "Absorption of SO2 in CaCO3-slurry in a laminar jet absorber", Chemical Engineering Science, 27, 1853-1861, 1972.
[13] Sada, E., Kumazawa, H. And Nishimura, H., "Absorption of Sulfur Dioxide into Aqueous Double Slurries Containing Limestone and Magnesium Hydroxide", AIChE Journal, 29 (1), 60-64, 1983.
[14] Takashina, T., Honjo, S., Ukawa, N. and Oishi, T., "Effect of Limestone Concentration and Particle Size on SO2 Absorption in Wet FGD Process", Journal Chemical Engineering of Japan, 34, 810-818, 2001.
[15] Takashina, T., Honjo, S., Ukawa, N. and Iwashita, K., "Effect of Ammonium Concentration on SO2 Absorption in Wet FGD Process", Journal of Chemical Engineering of Japan, 35, 197-204, 2002.
[16] Gutberlet, V.H. "Zum Leistungsvermögen der nassen Rauchgasentschwefelung für Steinkohle-feuerungen" VGB Kraftwerkstechnık, 63 (12), 1073- 177, 1983.
[17] Rem, R., Shi, F., Huang, X. and Jiang, D. 2011. Application of Additives to the Wet Flue Gas Desulfurization. ICETCE
2011-Proceedings. 1037-1040.
[18] EPA (Environmental Protection Agency), "Flue Gas Desulfurization" Control Techniques for Sulfur Oxide Emissions from Stationary Sources, EPA-450/3-81-004, North Carolina, 1981, 570.
[19] Devitt, T., Gerstle, R., Gibbs, L., Hartman, S. and Klier, R., Flue Gas Desulfurization System Capabilities for Coal-
Fired Steam Generators, EPA-600/7-78-032b,
Washington, 1978, 512. [20] Byrd, J. R., Anderson, K. D., Tomilnson, S. V. and Torstrick, R. L., "Definitive SOx Control Process Evaluations; Aqueous Carbonate and Wellman-Lord (Acid, Allied
Chemical and Resox)", FGD Technologies, EPA-600/7-81-
099, Washington, 1981, 320. [21] Neumann, U., "Regenerative Rauchgas-entschwefelung nach dem Wellman-Lord-Verfahren", VDI-Berichte, 495, 107-114, 1984.
[22] Gressingh, L. E., Graefe,A. F., Miller, F. E. and Barber, H., "Zinc Oxide Process" Applicability of Aqueous Solution to the Removal of SO2 from Flue Gases", Air Pollution Control Department, 1970, California, Vol. 1, 1970, 410.
[23] Madenburg, R. S. and Kurey, R. A., "Citrate Process Demonstration Plant" Proceeding; Symposium on Flue
Gas Desulfurization, EPA-600/7-78-058b, Vol.2,
Washington, 1978, 1042. [24] Yamamichi, Y. and Nagao, J., "The Dowa's Basic Aluminum Sulfate-Gypsum Flue Gas Desulfurization Process", Proceeding; Symposium on Flue Gas Desulfurization, EPA-600/2-76-136b, Vol.2, New Orleans, 1976, 1016.
[25] Weisenberg, I. J., Archer, T., Winkler, F. M., Browder, T. J.
and Prem, A., "Cominco Ammonia Scrubbing System", Feasibility of Primary Copper Smelter Weak Sulfur Dioxide Stream Control, Applicability of Aqueous Solution
to the Removal of SO2 from Flue Gases, EPA-600/2-80-
152, Vol.1, California, 1980, 520. [26] Williamson, P. C. and Puschaver, E. J., "Ammonia Absorption/Ammonium Bisulfate Regeneration Pilot Plant for Flue Gas Desulfurization", Ammonia Absorption/Ammonium Bisulfate Regeneration Pilot
Plant for Flue Gas Desulfurization, EPA-600/2-77-149,
Washington, 1977, 214. [27] Shapiro, E. and Ellison, W., "The SULF-X Process", Proceeding; Eighth Symposium on Flue Gas
Desulfurization, EPRI CS-3706, Vol.2, Washington, 1984, 129.
193
H. Çavuşoğlu, M. Ş. Gülaboğlu
Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, Cilt 19, Sayı 4,2013, Sayfalar 187-194
[28] EPA (Environmental Protection Agency), "Dimethylaniline (DMA) Scrubbing Systems", Background Information for New Source Performance Standards; Primary Copper , Zinc and Lead Smelters, EPA-450/2-74-002a, Vol. 1, North Carolina, 1974, 790.
[29] Kefa, C., Yong, C. and Fei, W., "Environmental Protection", Challenges of Power Engineering and Environment.
Proceedings of the International Conference on Power
Engineering, Vol.2, New York, 2007, 1434. [30] Bruce, M. and David, T., Combustion Engineering Issues
for Solid Fuel Systems, Academic Press, USA, 2008. [31] Heredy, L. A., Mc Kenzie, D. E. And Yosim, S. J. 1969.
Removl of Sulfur Oxides from Flue Gas. U. S. Pat 3 438 722
(Cl, 23-2) April 15, 1969.
Thank you for copying data from http://www.arastirmax.com
