Advanced SearchSearch Tips
Adsorption Efficiency of Coal Based GACs and Evaluation of Economic Efficiency
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Adsorption Efficiency of Coal Based GACs and Evaluation of Economic Efficiency
Choi, Dong-Hoon; Son, Hee-Jong; Park, Jin-Sik; Moon, Choo-Yeun; Ryu, Dong-Choon; Jang, Seong-Ho; Kwon, Ki-Won; Kim, Han-Soo;
  PDF(new window)
This is made of domestic and foreign coal activated carbon of five species, physicochemical adsorption efficient about sterilize products and micro harmful substances and is a result of the economic evaluation. The most well-developed micropores bed volume 123,409 of AC-1 activate carbon appeared to be the best next AC-2, AC-3, AC-4, AC-5 followed by activated carbon was investigated. PFOA and PFOS in the BV 96,000 when evaluating foreign types of adsorption activated carbon adsorption capacity was greater when more than PFOA, PFOS showed that the adsorption well. The economic evaluation of activated carbon usage in chloroform (CUR) was most excellent as a AC-1 4.3 g/day, the next AC-2, AC-3, AC-4, AC-5 there are two types of foreign economic order appears to have appeared, but the current domestic market when applying the price AC-1, AC-3, AC-2, AC-4, AC-5 order was investigated.
Coal activated carbon;Physicochemical adsorption efficient;Adsorption activated carbon adsorption capacity;
 Cited by
어선용 디젤엔진의 배출가스 저감 필터 개발과 저감 효율,이경훈;김상근;김성훈;양용수;박성욱;

한국어업기술학회지, 2014. vol.50. 1, pp.50-57 crossref(new window)
Choi, K. J., Kim, S. G., Kim, C. W., Kim, S. H., 2005, Effects of activated carbon types and service life on removal of endocrine disrupting chemicals: amitrol, nonylphenol, and bisphenol-A, Chemosphere, 58(11), 1535-1545. crossref(new window)

Clara, M., Scheffknecht, C., Scharf, S., Weiss, S., and Gans, O., 2008, Emissions of perfluorinated alkylated substances (PFAS) from point sources-identification of relevant branches, Proceedings of 2008 IWA World Water Congress, Vienna, Austria.

Crozes, G., White, P., and Marshall M., 2005, Enhanced Coagulation: its Effect on NOM Removal Chemical Cost, AWWA, 87(1), 78-89(2005)

Giesy, J. P. and Kannan, K., 2001, Global distribution of perfluorooctane sulfonate in wildlife, Environ. Sci. Technol., 35, 1339-1342. crossref(new window)

Giesy, J. P., Kannan, K., 2002, Perfluorochemical surfactants in the environment, Environ. Sci. Technol., 36, 146-152. crossref(new window)

Lien, N. P. H., Fujii, S., Tanaka, S., Nozoe, M., Wirojanagud, W., Anton, A., Hai, H. T., Lindstrom, G., Hu, J. Y., Mohamed, M., Tasli, R., Guan, Y., Mizuno, T., and Suwanna, K. B., 2008, International surveys of PFOS (perfluorooctane sulfonate) PFOA (perfluorooctanoate) in surface water and tap water, Proceedings of 2008 IWA World Water Congress, Vienna, Austria.

Loos, R., Locoro, G., Huber, T., Wollgast, J., Christoph, E. H., DeJager, A., Gawlik, B. M., Hanke, G., Umlauf, G., Zaldivar, J. M., 2008, Analysis of perfluorooctanoate (PFOA) and other perfluorinated compounds (PFCs) in the River Po watershed in N-Italy," Chemosphere, 71, 306-313. crossref(new window)

Prevedouros, K., Cousins, I. T., Buck, R. C., Korzeniowski, S. H., 2006, Sources, fate and transport of perfluorocarboxylates, Environ. Sci. Technol., 40(1), 32-44. crossref(new window)

Renner, R., 2003, Concerns over common perfluorinated surfactant. Environ. Sci. Technol. 37(11), 201-202. crossref(new window)

Sin, M. Y., Son, H. S., Cho, K. D., 2007, Quantitative etermination of PFOA and PFOS in the effluents of Sewage Treatment Plants and the surface water of Han River, Seoul using Liquid Chromatography/MS/MS, Proceeding of KSEE CONFERENCE, 1187- 1194.

Snoeyink, V. L., 1990, Adsorption of organic compounds, In Water Quality and Treatment: a Handbook of Community Water Supplies, 4th Ed., Edited by Pontius, F. W., McGraw-Hill Inc., New York, 781-855.

US EPA, 2000, Perfluorooctyl sulfonates: proposed significant new use rule, Federal Register, 65, 62319-62333.