Simultaneously removal of phosphorous and COD for purification of organophosphorus wastewater by catalytic ozonation over CaO

Organic phosphorous wastewater is very hard to be purified which need to remove both COD and phosphorous. The treatment process of organic phosphorous wastewater is commonly complicated. In this work, CaO has been used as the catalyst and precipitant for the treatment of organophosphorus wastewater by catalytic ozonation. Compared with CeO2, MnO2 and MgO, CaO shows excellent catalytic performance for the removal of COD. Additionally, the generated PO33 can be removed by Ca2+. Ca2+ can catalyze the reaction between O-3 and H2O to generate active oxygen species, such as (OH)-O-center dot, -O-center dot(2), O-1(2). Besides, various conditions, namely, amount of catalyst, O-3 flow rate, substrate concentration and pH for the degradation of Tetrakis Hydroxymethyl Phosphonium Sulfate (THPS) wastewater by catalytic ozonation over CaO have been optimized to determine the optimal parameter conditions. Finally, the excess Ca2+ in the solution can be removed by the addition of CO2.

Automated summary

CaO has been used as a catalyst and precipitant for the treatment of organic phosphorous wastewater by catalytic ozonation. It shows excellent catalytic performance for the removal of COD and can also remove the generated PO33. Ca2+ can catalyze the reaction between O-3 and H2O to generate active oxygen species. The conditions for the degradation of THPS wastewater by catalytic ozonation over CaO have been optimized, and excess Ca2+ can be removed by the addition of CO2.