UV조사에 의한 방향족 오염물의 분해

민병철; 김종향; 김병관

Journal of the Korean Industrial and Engineering Chemistry, Vol.8, No.3, 502-509, June, 1997

Export Citation

UV조사에 의한 방향족 오염물의 분해

Degradation of Aromatic Pollutants by UV Irradiation

민병철, 김종향, 김병관

초록

방향족 오염물을 UV산화-고도산화처리기술로 처리할 때, 여러 가지 반응조건에 따른 분해효율에 대해 고찰하였다. 벤젠 50ppm, 에틸벤젠 150ppm, 크실렌 250ppm을 각각 초기농도로하여 UV조사 하에서 시간변화에 따른 분해실험을 행한 결과, 반응 1시간 후 약 95% 이상의 분해율을 나타내었으나, 톨루엔의 경우에는 43%의 분해율을 보였다. 단일성분이 혼합성분에서 보다 분해가 좋았으며, pH변화에서는 벤젠은 pH변화에 관계없이 분해가 잘 되었으며, 에틸벤젠 92%(pH 4.0), 90%(pH 6.4), 91%(pH 10.0), 크실렌 95%(pH 4.0), 90%(pH 6.4), 92%(pH 10.0), 그러나 톨루엔은 80%(pH 4.0), 43%(pH 6.4), 70%(PH 10.0)의 분해율을 나타내었다. 방향족 오염물의 TOC 감소는 에틸벤젠을 제외하고는 유사 1차 반응속도식에 일치하였으며, 이로부터 속도상수를 결정할 수 있었다.

Aromatic pollutants(benzene, toluene, ethylbenzene and xylenes) were photodegraded by using a UV oxidation and the rates of degradation were investigated under various reaction conditions. Each of the solution containing 50 ppm benzene, 150 ppm ethylbenzene and 250 ppm xylenes was found UV-photodegraded over 90% in 1 hour of reaction time, wheras the only was 43 % degradation was obtained with 350 ppm toluene solution. A single component solution was more degradable than a mixed component solution and benzene was almost photodegraded at a pH 4.0, 6.4 and 10.0 after reaction time is 1 hr, ehtylbenzene was photodegraded about 92%(pH 4.0), 90%(pH 6.4) and 91%(pH 10.0), xylenes was photodegraded about 95%(pH 4.0), 90%(pH 6.4) and 92%(pH 10.0), but toluene was photodegraded about 80%(pH 4.0), 43%(pH 6.4) and 70%(pH 10.0), respectively. Kinetics studies show that the rate of decay in TOC(total organic carbon) were pseudo first-order rate except ethylbenzene, and then we could evaluate mineralization rate constants(k) of aromatics.

[References]

한국과학기술원, 고도정수처리를 위한 기술개발 (1993)
Serpone N, Pelizzetti E, Photocatalysis Fundamentals and Applications, John Wiley & Sons, 604-634 (1989)
Bunce NJ, Diodato GD, Safe SH, Chemosphere, 24, 433 (1992)
Kawaguchi H, Chemosphere, 24, 1707 (1992)
Peyton GR, Environ. Sci. Technol., 16, 448 (1982)
Parlar MM, Korte F, 4th Intern. Conf. Chem. Prot. Environ., Toulouse, 457 (1984)
Legrini O, Oliveros E, Braun AM, Chem. Rev., 93, 671 (1993)
Weir BA, Sundstrom DW, Klei HE, Hazard. Waste Hazard. Mater., 4, 165 (1987)
Sundstrom DW, Weir BA, Klei HE, Environ. Prog., 8, 6 (1989)
Peterson D, Watson D, Winterlin D, Bull. Environ. Contam. Toxicol., 44, 744 (1990)
Jakob L, Legrini O, Oliveros E, Braun AM, Photocatalytic Degradation of 1,2-dimethyl-3-nitro-o-xylenes Containing Industrial Waste Waters, EPFL: Lausanne, Switzerland (1992)
Cater SR, Brown PM, Buckley JA, Stenvens RDS, U.S. Patent, 5,043,080 (1991)
Sarakha M, Dauphin G, Boule P, Chemosphere, 18, 1391 (1989)
Castrantas HM, Gililisco RD, ACS Symp. Ser., 422, 77 (1990)
Yue PL, Legrini O, AIChE Natl. Meeting, San Francisco (1989)

[Referenced By]

[1] 한국과학기술원, 고도정수처리를 위한 기술개발 (1993)

[2] Serpone N, Pelizzetti E, Photocatalysis Fundamentals and Applications, John Wiley & Sons, 604-634 (1989)

[3] Bunce NJ, Diodato GD, Safe SH, Chemosphere, 24, 433 (1992)

[4] Kawaguchi H, Chemosphere, 24, 1707 (1992)

[5] Peyton GR, Environ. Sci. Technol., 16, 448 (1982)

[6] Parlar MM, Korte F, 4th Intern. Conf. Chem. Prot. Environ., Toulouse, 457 (1984)

[7] Legrini O, Oliveros E, Braun AM, Chem. Rev., 93, 671 (1993)

[8] Weir BA, Sundstrom DW, Klei HE, Hazard. Waste Hazard. Mater., 4, 165 (1987)

[9] Sundstrom DW, Weir BA, Klei HE, Environ. Prog., 8, 6 (1989)

[10] Peterson D, Watson D, Winterlin D, Bull. Environ. Contam. Toxicol., 44, 744 (1990)

[11] Jakob L, Legrini O, Oliveros E, Braun AM, Photocatalytic Degradation of 1,2-dimethyl-3-nitro-o-xylenes Containing Industrial Waste Waters, EPFL: Lausanne, Switzerland (1992)

[12] Cater SR, Brown PM, Buckley JA, Stenvens RDS, U.S. Patent, 5,043,080 (1991)

[13] Sarakha M, Dauphin G, Boule P, Chemosphere, 18, 1391 (1989)

[14] Castrantas HM, Gililisco RD, ACS Symp. Ser., 422, 77 (1990)

[15] Yue PL, Legrini O, AIChE Natl. Meeting, San Francisco (1989)