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NTIS 바로가기한국환경과학회지 = Journal of the environmental sciences, v.14 no.1, 2005년, pp.61 - 69
임진관 (부경대학교 응용화학공학부) , 이송우 (부경대학교 응용화학공학부) , 감상규 (제주대학교 토목환경공학부) , 이동환 (동의대학교 물질과학부) , 이민규 (부경대학교 응용화학공학부)
Adsorption characteristics of toluene vapor, which is one of important source of volatile organic compounds (VOCs), by activated carbon were investigated using a fixed bed adsorption column. The operating parameters such as breakthrough curve, adsorption capacity, mass transfer zone (MTZ), and lengt...
Park, J. T. and J. S. Kim, 1994, Adsorption breakthrough characteristics of organic solvent vapors in an activated carbon fixed bed, J. of KSWES, 11(4), 569-577
Kim, H. S. and Y. S. Park, 2003, Binary component adsorption characteristics of benzene and toluene at the fixed-bed adsorption column with activated carbon, J. of KSEE 25, 977-983
Ruhl, M. J, 1993, Recover VOCs via adsorption on activated carbon, Chem Eng. Prog., 37, 1344-1350
Noll, K. E., V. Goumaris and W. S. Hou, 1992, Adsorption Technology for Air and Water Pollution Control, Lewis, Chelsea, MI, 1804-1810pp
Ahrnadpour, A. and D. D. Do, 1995, Characterization of modified activated carbons, equilibria and dynamics studies, Carbon, 33(10), 1393-1398
Rodrguez-Reinoso, F., 1997, Introduction to Carbon Technologies, H. Marsh, E. A. Heintz, and F. Rodrguez-Reinoso, eds., Chap. 2, Univ. of Alicante, Alicante, Spain, 35pp
Lee, H. U, J. S. Kirn., H. K. Song and B. K. Na, 1999, Adsorption and desorption characteristics of MEK with activated carbon and polymer adsorbent, HWAHAK KONGHAK, 37(1), 120-125
Yoo, K. S., J. W. Shin, S. W Shin and J. H. Jeong, 2003, Characteristics of methanol adsorption over thermally treated activated carbon, HWAHAK KONGHAK, 41(4), 491-496
Kim, H. S., Y. S. Park and B. M. Min, 2001, Adsorption characteristics of benzene at the fixed-bed adsorption column, J. of KSEE, 23, 1979-1988
Seong, C. W, H. Y. Park, C. H. Lee and W. S. Kim, 1996, Adsorption of volatile organic compounds onto activated carbon fibers, Chem. Eng. Appl. and Theor., 4, 1653-1656
Kim, B., J. H. Kim, H. Y. Park, C. H. Lee and W. S. Kim, 1998, Adsorption and desorption of volatile organic compounds onto activated carbon fibers, Chem. Eng. Appl. and Theor., 4, 2573-2576
Nelson, G. O. and C. A. Harde, 1974, Respirator cartridge efficiency studies: V. Effect of solvent vapor, Am. Ind. Hyg, Assoc. J., 37, 391-410
Nelson, G. O. and C. A. Harder, 1976, Respirator cartridge efficiency studies: VI. Effect of concentration, Am. Ind. Hyg. Assoc. J., 37, 205-216
Wood, G. O., 1994, Estimating service lives of organic vapor cartridges, Am. Ind. Hyg. Assoc. J, 55, 11-15
Cohen, H. J and R. P. Garrison, 1989, Development of a field method for evaluating the service life of organic vapor cartridges : Results of laboratory testing using carbon tetrachloride, Am. Ind. Hyg. Assoc. J, 50, 486-496
Wood, G. O. and E. S. Moyer, 1991, A review and comparison of adsorption isotherm equations used to correlate and predict organic vapor cartridge capacities, Am. Ind. Hyg, Assoc. J, 52, 235-242
Vahdat, N., P. M. Swearengen, J. S. Johnson, S. Priante, K. Mathews and A. Neihart, 1995, Adsorption capacity and thermal desorption efficiency of selected adsorbents, Am. Ind. Hyg. Assoc. J., 56(1), 32-38
Wood, G. O and E. S. Moyer, 1989, A review of the Wheeler equation and comparison of its applications to organic vapor respirator cartridge breakthrough data, Am. Ind. Hyg, Assoc. J, 50, 400-407
Chuang, C. L., P. C. Chiang and E. E. Chang, 2003, Modeling VOCs adsorption onto activated carbon, Chemosphere, 53, 17-27
Lucas, S., M. P. Calvo, C. Palencia and M. J, Cocero, 2004, Mathmatical model of supercritical CO2 adsorption on activated carbon effect of operating conditions and adsorption scaleup, J, of Supercritical Fluids, 32, 193-201
Cui, X., R. Marc Bustin and D. Gregory, 2004, Selective transport of $CO_{2}$ , $CH_{4}$ , $N_{2}$ in coals: insight from modeling of experiment gas adsorption data, Fuel, 83, 293-303
Yoon, J, H. and G. O. Nelson, 1984, Application of gas adsorption kinetics: I. A theoretical model for respirator cartridge service life, Am. Ind. Hyg. Assoc. J., 45 (8), 509-516
McCabe, W, L., J, C. Smith and P. Harriot, 2001, Unit Operations of Chemical Engineering, 6th ed., McGraw Hill, 1114pp
Reynolds, T. D. and P. A. Richards, 1998, Unit Operations and Process in Environmental Engineering, 2nd ed., PWD Publishing, 798pp
Hwang, K. S., K. D. Choi and Y. S. Kong, 1998, The thermal regeneration characteristics of volatile organic compounds on an activated carbon bed ( I ) : Adsorption step, J, of KIChE, 36(2), 159-168
Lee, J, J, and H. Y. Yu, 1998, Adsorption characteristics of BEAM by granular activated carbon(II), J, of KSSE, 20(4), 509-518
Cho, K. C., B. H. Shon, Y. M. Jo and K. J, Oh, 1999, A study on the $H_{2}S$ removal using $Na_{2}CO_{3}$ impregnated activated carbon, J. of KSEE, 21(11), 2017-2025
Jeon, Y. H., J, H. Young, B. H. Shon and S. W. Cho, 1996, A study on adsorption characteristics of $SO_{2}$ gas in a fixed-bed ad sorber, J. of KSEE, 18, 961-969
Oh, K. J., J. J. Kim, Y. H. Jean and B. H. Son, 1996, Adsorption characteristics of $SO_{2}$ using soil bed, J. of KSEE, 18(2), 171-179
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