References
- Gan, Cheng, Chuanxiang, Zhang., Xiaoming, Zhanga and Kai, Jia., "Desulfurization Offlue Gas by Means of Lignite-derived Potassium Humate," FUEL, 15(252), 646-652(2019).
-
Tongpeng, Ma., Dongli, Yuana., Bailong, Mu., Li, Gao., Xiaojing, Zhang and Hongzhong, Zhang., "Synthesis, Properties and Application of Double Salt
$(NH_4)2Mg(SO{_4}){_2}{\cdot}6H_2O$ in Wet Magnesium-ammonia FGD Process," FUEL, 1(219), 12-16(2018). - Krzyzynska, R., Hutson, N. D., Zhao, Y., Szeliga, Z. and Regucki, P., "Mercury Removal and Its Fate in Oxidant Enhanced Wet Flue Gas Desulphurization Slurry," FUEL, 1(211), 876-882 (2018).
- Patricia, Cordoba., "Status of Flue Gas Desulphurisation (FGD) Systems from Coal-fired Power Plants: Overview of the Physic-chemical Control Processes of Wet Limestone FGDs," FUEL, 15(144), 274-286(2015). https://doi.org/10.1016/j.fuel.2014.12.065
-
Ma, X., Kaneko, T., Tashimo, T., Yoshida, T. and Kato, K., "Use of Limestone for
$SO_2$ Removal from Flue Gas in the Semidry FGD Process with a Powder-particle Spouted Bed," Chem. Eng. Sci., 22(55), 464-4652(2000). - Mingyang, Sun., Zimo, Lou., Guanghuan, Cheng., Shams, Ali-Baig., Li, Fang., Xiaoxin, Zhou., Yixia, Shen and Xinhua, Xu., "Process Migration and Transformation of Mercury in Simulated Wet Flue Gas Desulfurization Slurry System," FUEL, 15(140), 136-142(2015).
- R, Ochoa Gonzalez., M, Diaz-Somoano., M. A, Lopez Anton and M.R, Martinez-Tarazona., "Effect of Adding Aluminum Salts to Wet FGD Systems Upon the Stabilization of Mercury," FUEL, 96, 568-571(2012). https://doi.org/10.1016/j.fuel.2012.01.054
- Kim, H. S., "Methods for Improvement of Low-quality Limestone and Its Limestone," Korea. Patent No.10, 2012-0018757(2012).
- Ahn, J. H., "High-grade Localization Method of Low-grade Limestone for the Manufacture of Raw Lime for Desulfurization," Korea. Patent No.10, 2015-0061150(2015).
- Korea Electric Power Research Institute, "Operation Results of 200MW Flame Retaining System Using Wet Limestone Method," Journal of Korean Society of Environmental Engineers, 22(8), 1407-1416(2000).
- Kim, B. N., "Thermal Power Plant Blast Desulfurization Facility," Trans. Korean Soc. Mech. Eng. A., 97-103(2003).
- Katolicky, J. and Jicha, M., "Optimization of Desulphurization Process in a Flue Gas Absorber by Adjusting Flow Patterns and Rotary Atomizer," HEFAT2007, 57(2), KJ31(2007).
- Korea Electric Power Research Institute, "Reaction and Selection Criteria of Limestone for Flame Deformation," Journal of Material Cycles and Waste Managemnet, 2010(0), 125-127(2010).
-
Xiaouxun, Ma., Takao, Kaneko., Tsutomu, Tashimo., Tadashi, Yoshida and Kunio, Kato., "Use of Limestone for
$SO_2$ Removal from Flue Gas in the Semidry FGD Process with a Powder-particle Spouted Bed," Chemical Engineering Science, 55(2000), 4643-4652(2000). https://doi.org/10.1016/S0009-2509(00)00090-7
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