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Received May 13, 2004
Accepted August 10, 2004
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질산 및 황산으로 표면처리된 활성탄소섬유의 Propylamine 흡착특성
Propylamine Adsorption Characteristics of Surface-treated Activated Carbon Fibers with Nitric Acid and Sulfuric acid
KT&G 중앙연구원, 305-805 대전시 유성구 신성동 302 1충남대학교 화학공학과, 305-764 대전시 유성구 궁동 220
KT&G Central Research Institute, 302, Shinseoung-dong, Yuseong-gu, Daejeon 305-805, Korea 1Department of Chemical Engineering, Chungnam National University, 220, Kung-dong, Yuseong-gu, Daejeon 305-764, Korea
bkkim9@ktng.com
Korean Chemical Engineering Research, October 2004, 42(5), 551-557(7), NONE Epub 18 November 2004
Abstract
1 M 질산 및 1 M 황산으로 표면 처리된 레이욘계 활성탄소섬유(KF-1500)의 세공구조와 표면관능기를 분석하였으며 이들에 대한 propylamine의 흡착특성을 연구하였다. 끓는점에서 처리된 활성탄소섬유의 비표면적(SBET)과 총세공부피(Vt)는 5-8% 감소하였으나 총표면산도는 크게 증가하였다. 질산 처리된 활성탄소섬유의 총표면산도는 처리되지 않은 것에 비하여 약 10배나 증가하였고, 황산처리에 비하여는 3.3배 증가하였으며 특히 carboxylic기와 phenolic기의 증가량이 컸다. 상대압력 1.0에서 질산처리 활성탄소섬유의 propylamine 흡착량은 350 mg/g-ACF 정도로써 처리되지 않은 것에 비하여 약 17%증가하였으며, 평형에서의 등온흡착은 Freundlich식과 잘 일치하였다. 질산 처리된 활성탄소섬유의 propylamine 흡착능이 월등하게 증가한 것은 carboxylic기와 phenolic기가 크게 증가했기 때문이다.
The surface of rayon-based activated carbon fiber (ACF, KF-1500) was treated by 1 M HNO3 and 1 M H2SO4. Structural properties and surface functional groups of the ACFs were analyzed and prophylamine adsorption characteristics of the ACFs were also investigated. The specific surface area and total pore volume of ACFs decreased about 5-8 wt% by acidic treatment at boiling point, while total surface acidity highly increased. The total surface acidity of nitric acid treated ACF was 10 times larger than that of non-treated ACF and 3.3 times larger than that of sulfuric acid treated ACF. Especially, carboxylic and phenolic groups of ACF were much developed by nitric acid treatment. The propylamine adsorption amount of ACF treated by nitric acid was 350 mg/g-ACF at relative pressure of 1.0 and increased 17% more than that of non-treated ACF. Also, the equilibrium adsorption isotherm was well fitted to Freundlich equation. This remarkable increase on propylamine adsorption capacity of nitric acid treated ACF was due to the large increase of carboxylic and phenolic groups on the surface.
References
Elvers B, (Ed.), Ullmanns Encyclopedia of Industriall, Chemistry, 5th ed. VCH, Weinheim and New York (1991)
Pietshch J, Sacher F, Schmidt W, Brauch HJ, Water Res., 35(15), 3537 (2001)
Akita S, Takeuchi H, Sep. Sci. Technol., 31(3), 401 (1996)
Neurath G, Pirmann B, Wichern H, Beitr. Tabakforsch, 2, 311 (1964)
Budavari S, Blumetti RF, Otterbein ES, Windholz M, The Merck Index, 7743 (1983)
Ono Y, Somiya I, Kawaguchi T, Mohri S, Desalination, 106(1-3), 255 (1996)
Knepper TP, Sacher F, Lange FT, Brauch HJ, Karrenbrock F, Roerden O, Lindner K, Waste Manage., 19, 77 (1999)
Hwang YW, Matsuo T, Hanaki K, Suzuki N, Water Res., 28(11), 2309 (1994)
Turk A, Mehlman S, Levine E, Atmos. Environ., 7(11), 1139 (1973)
Islam MR, Chakmaa A, Gas Sep. Purif., 4(2), 103 (1990)
Boger T, Salden A, Eigenberger G, Chem. Eng. Process., 36(3), 231 (1997)
Ryu SK, High Temp.-High Press., 22, 345 (1990)
Kim YO, Ko KR, Park YT, Ryu SK, HWAHAK KONGHAK, 30(3), 347 (1992)
Kinoshita K, Carbon, Electrochemical and Physicochemical Properties, John Wiley & Sons, Inc., New York (1988)
Jung CH, Jung HH, Moon JK, Oh WZ, Ryu SK, HWAHAK KONGHAK, 35(4), 538 (1997)
Brett CMA, Oliveira BAM, Electrochemistry Principles, Methods and Applications, Oxford University Press, New York (1993)
Teng H, Tu YT, Lai YC, Lin CC, Carbon, 39(4), 575 (2001)
Noh JS, Schwarz JA, Carbon, 28(5), 675 (1990)
Jr. Pittman CU, He GR, Wu B, Gardner SD, Carbon, 35(3), 317 (1997)
Shim JW, Ryu SK, HWAHAK KONGHAK, 36(6), 903 (1998)
Park SJ, Shin JS, Kawasaki J, J. Korean Ind. Eng. Chem., 14(8), 1133 (2003)
Rouquerol F, Rouquerol J, Sing K, Adsorption by Powders and Porous Solids, Academic Press, Inc., San Diego (1999)
Furuya E, Watanabe N, Miura Y, Morishita S, Noll KE, "Studies on Adsorption Equilibria of Pyridines and its Derivatives onto High Silica Zeolite Particles", The Third Korea-Japan Symp. on Sep. Tech. October, Japan (1993)
Lee SS, Kim HJ, Yu MH, J. Korean Ind. Eng. Chem., 9(5), 661 (1998)
Pietshch J, Sacher F, Schmidt W, Brauch HJ, Water Res., 35(15), 3537 (2001)
Akita S, Takeuchi H, Sep. Sci. Technol., 31(3), 401 (1996)
Neurath G, Pirmann B, Wichern H, Beitr. Tabakforsch, 2, 311 (1964)
Budavari S, Blumetti RF, Otterbein ES, Windholz M, The Merck Index, 7743 (1983)
Ono Y, Somiya I, Kawaguchi T, Mohri S, Desalination, 106(1-3), 255 (1996)
Knepper TP, Sacher F, Lange FT, Brauch HJ, Karrenbrock F, Roerden O, Lindner K, Waste Manage., 19, 77 (1999)
Hwang YW, Matsuo T, Hanaki K, Suzuki N, Water Res., 28(11), 2309 (1994)
Turk A, Mehlman S, Levine E, Atmos. Environ., 7(11), 1139 (1973)
Islam MR, Chakmaa A, Gas Sep. Purif., 4(2), 103 (1990)
Boger T, Salden A, Eigenberger G, Chem. Eng. Process., 36(3), 231 (1997)
Ryu SK, High Temp.-High Press., 22, 345 (1990)
Kim YO, Ko KR, Park YT, Ryu SK, HWAHAK KONGHAK, 30(3), 347 (1992)
Kinoshita K, Carbon, Electrochemical and Physicochemical Properties, John Wiley & Sons, Inc., New York (1988)
Jung CH, Jung HH, Moon JK, Oh WZ, Ryu SK, HWAHAK KONGHAK, 35(4), 538 (1997)
Brett CMA, Oliveira BAM, Electrochemistry Principles, Methods and Applications, Oxford University Press, New York (1993)
Teng H, Tu YT, Lai YC, Lin CC, Carbon, 39(4), 575 (2001)
Noh JS, Schwarz JA, Carbon, 28(5), 675 (1990)
Jr. Pittman CU, He GR, Wu B, Gardner SD, Carbon, 35(3), 317 (1997)
Shim JW, Ryu SK, HWAHAK KONGHAK, 36(6), 903 (1998)
Park SJ, Shin JS, Kawasaki J, J. Korean Ind. Eng. Chem., 14(8), 1133 (2003)
Rouquerol F, Rouquerol J, Sing K, Adsorption by Powders and Porous Solids, Academic Press, Inc., San Diego (1999)
Furuya E, Watanabe N, Miura Y, Morishita S, Noll KE, "Studies on Adsorption Equilibria of Pyridines and its Derivatives onto High Silica Zeolite Particles", The Third Korea-Japan Symp. on Sep. Tech. October, Japan (1993)
Lee SS, Kim HJ, Yu MH, J. Korean Ind. Eng. Chem., 9(5), 661 (1998)