Photocatalysis has been a widely studied technology since the 1970s. Many investigations have
been carried out with the aim of understanding the fundamental processes and enhancing
photocatalytic efficiencies especially for water, air, and soil pollution control. In this comprehensive paper, studies focused on the treatment of hazardous wastewater (bearing heavy metals
and organic compounds) by photocatalysis and the effects of various parameters such as pH,
light intensity, dissolved oxygen, etc., are reviewed. In addition, the design features and
efficiencies of various photoreactors used for this process are discussed. Some studies on the
economic analysis of photocatalytic systems are also included. It can be concluded that the
photocatalysis process is suitable for the treatment of drinking water and industrial wastewater.
Also, harvesting the energy of the sun for photoreactions would make it a cleaner and more
cost-effective treatment method.
This article describes the photocatalytic reduction and deposition of four metal ions Cr(VI), Ni(II), Zn(II), and Cu(II) present in the wastewater from a chrome plating industry using solar energy irradiated TiO 2 . A parabolic trough reactor was used to carry out the reaction. Experiments were carried out to find an optimum dose of hole scavenger used (citric acid). The adsorption and reduction of the metal ions at different pH values was also investigated.It was observed that the solar photocatalytic process was effective in removing most of the metal ions in specific reaction conditions. Alkaline pH was found to be more suitable for removal of nickel and zinc. However, Cr(VI) reduced completely even at catalyst concentrations as low as 0.5 mg/L at pH 2. Maximum reaction was completed in the first 4 h of solar exposure.
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