Ozonation of polycyclic aromatic hydrocarbon in hexane and water: Identification of intermediates and pathway

Young-Ik Choi; Andrew Hong

Korean Journal of Chemical Engineering, Vol.24, No.6, 1003-1008, November, 2007

DOI10.1007/s11814-007-0111-x Export Citation

Ozonation of polycyclic aromatic hydrocarbon in hexane and water: Identification of intermediates and pathway

Young-Ik Choi^†, and Andrew Hong¹

Department of Environmental Engineering, Silla University, Busan 617-736, Korea
¹Department of Civil and Environmental Engineering, University of Utah, Salt Lake City, Utah 84112, USA

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The recalcitrant nature of pyrene and other polycyclic aromatic hydrocarbons (PAHs) lies in part in their low solubility in water, rendering them less susceptible to chemical and biological degradation. To overcome this remediation obstacle, this work investigates the use of a 2-stage ozonation process, first in nonpolar hexane phase then in polar aqueous phase, for the treatment of hydrophobic contaminants using pyrene as a model compound. The objectives of this research are to break down pyrene by using ozonation, identify the intermediates of pyrene, show a general degradation pathway of pyrene subject to ozonation and test the biodegradability of intermediates and byproducts of pyrene in the aqueous phase. The first stage briefly ozonates the contaminant at high concentration in organic solvent hexane, which facilitates very efficient conversion of the hydrophobic compounds into ring-opened polar intermediates containing alcohol, aldehyde, and acid functional groups.

Keywords:Chemical;Degradation;PAHs;Pyrene;Ozone

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[1] Zeng Y, Hong PKA, Wavrek DA, Water Res., 34, 1157 (2000)

[2] Zeng Y, Hong PKA, Wavrek DA, Environ. Sci. Technol., 34, 854 (2000)

[3] Hong ES, Kim HS, Lee SL, Chung JS, Shin EW, Ryu K, Yoo IK, J. Korean Society of Environmental Engineers, 28(5), 573 (2006)

[4] Danheux C, Hanoteau L, Martin RH, Van Binst G, Bull. Soc. Chim. Belg., 72, 289 (1963)

[5] Sturrock MG, Duncan RA, J. Org. Chem., 33, 2149 (1968)

[6] Kefely AA, Rakovski SK, Shopov DM, Razumovskii SD, Rakovski RS, Zaikov GE, J. Poly. Sci., 19, 2175 (1981)

[7] Legube B, Guyon S, Sugimitsu H, Dore M, Water Res., 20, 197 (1986)

[8] Kornmuller A, Cuno M, Wiesmann U, Water Sci. Technol., 35, 57 (1997)

[9] Stich FA, Bhattacharyya D, Environ. Prog., 6(4), 224 (1987)

[10] Chang CY, Chen JN, Haz. Ind. Wastes, 25th Mid-Atlantic Industrial Waste Conference, 491 (1993)

[11] Chen JN, Chang CY, Tox. Envirn. Chem., 59, 7 (1997)

[12] Freshour AR, Mawhinney S, Bhattacharyya D, Water Res., 30, 1949 (1996)

[13] Yao JJ, Huang ZH, Masten SJ, Water Res., 32, 3001 (1998)

[14] Yao JJ, Huang ZH, Masten SJ, Water Res., 32, 3235 (1998)

[15] Hong PKA, Chao JC, Ind. Eng. Chem. Res., 43(24), 7710 (2004)

[16] Beltran FJ, Ovejero G, Encinar JM, Rivas J, Ozonation. Ind. Eng. Chem. Res., 34, 1595 (1995)

[17] APHA, AWWA, WPCF (WEF), Part 4500, Ozone (residual), proposed, Indigo Colorimetric Method, 18th ed., American Public Health Association: Washington (1992)

[18] Bailey P, Ozonation in organic chemistry, Academic Press, New York Vll Chapters III-V (1982)