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A Study on the Model of Sulfidation Kinetics Using Seashell Wastes  

Kim Young-Sik (Dept. of Environmental Engineering, Miryang National University)
Publication Information
Journal of Environmental Health Sciences / v.30, no.5, 2004 , pp. 395-401 More about this Journal
Abstract
In this study, lots of methods have been studing to utilize energy and decrease contaminated effluents. There has been great progress on IGCC (Integrated gasification combined cycle) to reduce thermal energy losses. The following results have been conducted from desulfurization experiments using waste shell to remove $H_{2}S$. Unreacted core model ior desulfuriration rate prediction of sorbent was indicated. These were linear relationship between time and conversion. So co-current diffusion resistance was conducted reaction rate controlling step. The sulfidation rate is likely to be controlled primarily by countercurrent diffusion through the product layer of calcium sulfide(CaS) formed. Maximum desulfurization capacity was observed at 0.631 mm for lime, oyster and hard-shelled mussel. The kinetics of the sorption of $H_{2}S$ by CaO is sensitive to the reaction temperature and particle size at $800^{\circ}C$, and the reaction rate of oyster was faster than the calcined limestone at $700^{\circ}C$.
Keywords
desulfurization; sulfidation kinetics; seashell wastes; lime;
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