Revise the content according to APA style电絮凝耦合催化臭氧氧化工艺被视为一种有前景的工艺应用于制药废水处理领域。电絮凝在处理废水中悬浮物的同时可以通过其带来的电场和絮体与金属氧化物催化剂起到催化臭氧氧化的协同作用显著提高了水体中难降解有机物的去除效果并降低了工艺运行能耗与费用。电絮凝提高臭氧降解IBP的效能的主要原因是电场和絮体提高了臭氧的转移及消耗质量使

The electrocoagulation-catalytic ozonation process is considered a promising technology for the treatment of pharmaceutical wastewater. Electrocoagulation can remove suspended solids in wastewater and, through the electric field and flocs generated, synergistically catalyze ozonation with metal oxide catalysts. This significantly improves the removal efficiency of refractory organic compounds in water and reduces the energy consumption and cost of the process. The primary reason for the improvement of the efficiency of ozone degradation of IBP by electrocoagulation is that the electric field and flocs increase the transfer and consumption of ozone, increasing the utilization rate of ozone from 17% in single ozonation to about 75%. Additionally, electrocoagulation can significantly increase the yield of hydroxyl radicals under the same ozone consumption conditions. More hydroxyl radicals are used in the degradation process of IBP, and the addition of electrocoagulation compared to single ozonation improves the degradation efficiency of IBP by about 26%. Therefore, the electrocoagulation-catalytic ozonation process is a viable technology for the degradation of IBP in pharmaceutical wastewater.