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ABSTRACT
Application of pilot-scale slurry-type tubular photocatalytic reactor was tested for the decentralized treatment of actual grey water. The reactors were fabricated by reusing the locally available materials at low cost, operated in batch recycle mode with 25 L of grey water. The influence of operational parameters such as catalysts’ concentration, initial slurry pH and addition of H2O2 on COD abatement were optimized. The results show that Ag-decorated TiO2 showed a two-fold increase in COD abatement than did pure TiO2. Better COD abatement was observed under acidic conditions, and addition of H2O2 significantly increases the rate of COD abatement. Within 2 h, 99% COD abatement was observed when the reactor was operated with optimum operational conditions. Silver ion lixiviate was also monitored during the experiment and is five times less than the permissible limits. The catalyst shows good stability even after five cycles without much loss in its photocatalytic activity. The results clearly reveal that pilot-scale slurry tubular solar photocatalytic reactors could be used as a cost-effective method to treat grey water and the resulting clean water could be reused for various non-potable purposes, thus conserving precious water resource. This study favours decentralized grey water treatment and possible scaling up of solar photocatalytic reactor using locally available materials for the potential reuse of treated water.
GRAPHICAL ABSTRACT
Acknowledgements
We acknowledge the University Grants Commission (UGC) India, for funding the major research project (F. No. 40/146/2010 S.R.) and Central Instrumentation Facility (CIF), Pondicherry University for characterization studies.
Disclosure statement
No potential conflict of interest was reported by the authors.