Photocatalytic Degradation of Toluene (Component of Crude Oil) Contaminated Water Using Titanium Dioxide Based Catalyst: A Review

Ozogu A. Nanadeinboemi, O. O. Fasanya, Olusegun A. Ajayi, Adegboyega S. Olawale, M. S. Olakunle
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引用次数: 2

Abstract

Petroleum industry is one of the fastest growing industry in the world, and it contributes significantly to the profitable development in unindustrialized countries. The wastewater from a petroleum industry consist a wide variety of pollutants like petroleum hydrocarbons, mercaptans, oil and grease, benzene, toluene, ethylbenzene, xylene, phenol, ammonia, sulphide and other organic compounds etc. All these compounds are present as very complex form in discharged water of petroleum industry, which are harmful to the environment and human health directly or indirectly. Pollution of soil-water interface due to the release of hydrocarbons in environment is a major public health concern, and therefore, remediation of these pollutants is needed to reduce risk to human and environment. Various methods such as physical, chemical, biological, and Advanced oxidation processes (AOPs) methods are used to degrade these pollutants from wastewater. The conventional remediation methods can only change the phase of contaminants without destroying them, thereby leading to another pollution problem. This review paper highlights some current treatment methods of toluene contaminated water, and to introduce a proposed method that sought to develop an oleophilic and hydrophobic composite catalyst (ESA-TiO2-FeS2-Kenaf), that would harvest the toluene content, and simultaneously degrade the harvested toluene content using solar light as the energy source.
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二氧化钛基催化剂光催化降解原油组分甲苯污染水体的研究进展
石油工业是世界上发展最快的工业之一,对非工业化国家的盈利性发展作出了重要贡献。石油工业废水中含有各种各样的污染物,如石油碳氢化合物、硫醇、油和油脂、苯、甲苯、乙苯、二甲苯、苯酚、氨、硫化物和其他有机化合物等。这些化合物都以非常复杂的形式存在于石油工业排放水中,直接或间接地对环境和人体健康造成危害。由于在环境中释放碳氢化合物而造成的土壤-水界面污染是一个重大的公共卫生问题,因此需要对这些污染物进行补救,以减少对人类和环境的风险。各种方法,如物理、化学、生物和高级氧化过程(AOPs)方法被用于从废水中降解这些污染物。传统的修复方法只能改变污染物的相,而不能破坏污染物,从而导致另一个污染问题。本文综述了目前处理甲苯污染水的几种方法,并介绍了一种利用太阳能作为能量源制备亲油疏水复合催化剂(esa - tio2 - fes2 -红麻)的方法,该方法既能收集甲苯,又能降解收集到的甲苯。
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