Lawan, M.S.; Kumar, R.; Rashid, J.; Barakat, M.A.-F. Recent Advancements in the Treatment of Petroleum Refinery Wastewater. Water2023, 15, 3676.
Lawan, M.S.; Kumar, R.; Rashid, J.; Barakat, M.A.-F. Recent Advancements in the Treatment of Petroleum Refinery Wastewater. Water 2023, 15, 3676.
Lawan, M.S.; Kumar, R.; Rashid, J.; Barakat, M.A.-F. Recent Advancements in the Treatment of Petroleum Refinery Wastewater. Water2023, 15, 3676.
Lawan, M.S.; Kumar, R.; Rashid, J.; Barakat, M.A.-F. Recent Advancements in the Treatment of Petroleum Refinery Wastewater. Water 2023, 15, 3676.
Abstract
The treatment of petroleum refinery wastewater (PRWW) is of great interest in the field of industrial wastewater management. The wastewater contains a diverse concentration of contaminants such as oil and grease, petroleum hydrocarbons, phenol, ammonia, sulfides, as well as other organic and inorganic composites etc. The treatment of refinery wastewater has been treated through various processes including; physical, biological, chemical or hybrid methods which combine two or more techniques. Hence, the objective of this review is to summarize the recent research studies applied in the treatment of petroleum refinery wastewater using conventional, advanced as well as integrated treatment techniques. Furthermore, critically highlight the efficiencies and major limitations of each technique as well as prospects for improvement. Several conventional treatment techniques (basically, the physicochemical and biological processes) were discussed. In this context, advanced oxidation processes (AoPs) especially electrochemical oxidation and photocatalysis as well as the integrated/hybrid processes are found effective to remove the recalcitrant fraction of organic pollutants because of their various inherent mechanisms. These techniques could effectively remove COD and phenols concentration with an average removal efficiency exceeding 90%. Hence, the review also presented an elaborate discussion of the photocatalytic process as one of the advanced techniques and highlighted some basic concepts to optimize the degradation efficiency of a photocatalyst. Finally, a brief recommendation for research prospects is also presented.
Environmental and Earth Sciences, Waste Management and Disposal
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