Photocatalytic degradation of naphthalene in offshore produced water: comparison of immobilized and suspended TiO2

Bo Liu; Bing Chen; Kenneth Lee; Baiyu Zhang; Yinchen Ma; Liang Jing

Photocatalytic degradation of naphthalene in offshore produced water: comparison of immobilized and suspended TiO2

Authors

Bo Liu Memorial University of Newfoundland
Bing Chen Memorial University of Newfoundland
Kenneth Lee and Atmosphere Flagship, Commonwealth Scientific and Industrial Research Organisation (CSIRO)
Baiyu Zhang Memorial University of Newfoundland
Yinchen Ma Memorial University of Newfoundland
Liang Jing Memorial University of Newfoundland

Abstract

Offshore oil and gas industry has produced and discharged a considerable amount of produced on a daily basis. However, current treatment methods such as gravity separation are not effective in removing dissolved organic matters before discharge. As the increasing environmental awareness and stringent regulation, it is necessary to develop more effective approaches to remove dissolved organics. Photocatalysis has been introduced in water and wastewater treatment and can effectively remove organic pollutants non-selectively. However, the separation of catalysts after treatment is difficult and costly. Thus, the immobilization of catalyst could be an alter approach that avoids any post-treatment. In this study, produced water was irradiated under UV-C (254 nm) for 12 h with the presence of catalysts. A commercial catalyst, Aeroxide® P25 was immobilized on glass plates by a heat attachment method. The P25 powder was used as a referent catalyst. Naphthalene was selected as an indicator owing to its abundance in produced water and typical chemical property of polycyclic aromatic hydrocarbons (PAHs). The results showed that the immobilized catalyst has a better enhancement to photo-oxidation. The turbidity was significantly reduced compared with suspended system.

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Published

2014-11-16

Issue

Proceedings of the International Conference on Marine and Freshwater Environments (iMFE 2014) - Our Water, Our Future

Section

Water and Wastewater Treatment (WWT)

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