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http://dx.doi.org/10.12925/jkocs.2010.27.3.12

Characterization of dry sorbents for $CO_2$ separation from MSW incineration flue gas  

Kim, Byung-Soon (Department of Environmental Engineering, University of Seoul)
Lee, Ju-Yeol (Technology Institute, Anytech Co., Ltd.)
Kim, Shin-Do (Department of Environmental Engineering, University of Seoul)
Publication Information
Journal of the Korean Applied Science and Technology / v.27, no.3, 2010 , pp. 318-324 More about this Journal
Abstract
In this study, commercial pellet type sorbents for the collection of $CO_2$ from a local municipal waste incinerator were prepared and characterized in terms of adsorption efficiency by varying the operating conditions of a field process. The concentration of $CO_2$ in the flue gas ranged from 8 to 10%, which entered the test packed bed. As a result of this experiment, the sorbent procured from A-company, which is mainly composed of calcium compounds, showed the highest adsorption efficiency. The regeneration efficiency was fairly low, however. It also was found that based on adsorption breakthrough time, the relatively low flow rate of 10 LPM into the bed allowed higher collection efficiency. The higher flow rate of 40 LPM, on the other hand, tended to decrease the retention of the adsorption.
Keywords
carbon dioxide; incineration; adsorption; zeolite; GHG;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 K. M. Lee and Y. M. Jo, Adsorption Characteristics of Chemically Modified Sorbents Carbon dioxide. KSIEC, 19(5), p.533 (2008).
2 K. M. Lee, Adsorption of indoor $CO_{2}$ by zeolitic sorbents. PhD dissertation, Kyung Hee university, (2010).
3 G. Bronitsky and R. Hamer, American Autiguity, 51(1), 89, (1986).
4 Y. H. Lim, K. M. Lee, H. S. Lee and Y. M. Jo, KOSAE, 26(3), 286, (2010).   과학기술학회마을   DOI
5 S. S. Jo, Open Symposium in 2006, http://www.cjs.or.kr/.Accessed (2006).
6 Ministry of Environment, Guideline of Indoor Air Quality, http://www.me.go.kr/. Accessed (2003).
7 J. T. Kim, J. S. Lee, J. S. Hong, J. K. Suh, C. H. Lee, and J. M. Lee, J. Kor. Ind. & Eng. Chem, 13(4), 345 (2002).
8 K. Cheu, J. Nam, Y. Yun, and C. Soon, Fundamentals of adsorption, Proc. Int. Conf., D. LeVan (ed.) Kluwer Academic Pub., Boston, Massachusetts, p.203 (1996).
9 G. Calleja, A. Jimenez, J. Pau, L. Dominguez, and P. Perez, Gas Separation & Purification, 8(4), 247 (1994).   DOI   ScienceOn
10 K. S. Walton, M. B. Abney, and M. Douglas LeVan, Official Journal of the International Zeolite Association, 91(1/3), 78 (2006).
11 M. Kubota, H. Yoshida, C. Kyaw, F. Watanabe, H. Matsuda, M. Hasatani, and A. Saji, JICHE, Japan, 31(3), 204 (2005).
12 K. Kamiuto, P. Ermalina, and K. Ihara, Applied Energy, 69(4), 285 (2001).   DOI   ScienceOn
13 J. G. Yim, D. W. No, D. H. Yu, S. E. Kim and Y. H. Ahn, 3rd Korea Government Report Research by The Climatic Change. Korea Energy Economics Institute, 33, (2007).
14 R. Siriwardane, M. Shen, E. Fisher and J. Shamsi, Adsorption and Desorption on Solid Sorbents. US Department of Energy, (2001).
15 J. C. Kim, J. M. Kim, J. W. Park, S. G. Wang, G. Y. Lee, Y. M. Lee, C. H. Lee, S. H. Jeong and W. H. Hong, Carbon capture and storage. Cheong moon gak, 9, (2008).
16 Ministry of Environment, Management Condition of MSW Resource Recovery Facility. 1, (2010).
17 IPCC, Good Practice Guidance and Uncertainty Management in National Greenhouse Gas Inventories, p.5.25, (2000).
18 IPCC, 2006 IPCC Guideline for National Greenhouse Gas Inventories, p.5.5, (2006).
19 J. G. Yim, D. W. No, D. H. Yu, S. E. Kim and Y. H. Ahn, 3rd Korea Government Report Research by The Climatic Change. Korea Energy Economics Institute, p.31, (2007).
20 J. G. Yim, D. W. No, D. H. Yu, S. E. Kim and Y. H. Ahn, 3rd Korea Government Report Research by The Climatic Change. Korea Energy Economics Institute, p.83, (2007).