Department of Environmental Health Engineering, Faculty of Health and Nutrition, Bushehr University of Medical Sciences, Bushehr, Iran.
Systems Environmental Health and Energy Research Center, The Persian Gulf Biomedical Sciences Research Institute, Bushehr University of Medical Sciences, Bushehr, Iran.
Environ Sci Pollut Res Int. 2023 Feb;30(6):16707-16718. doi: 10.1007/s11356-022-23253-9. Epub 2022 Oct 3.
The main goal of the current investigation was to decontaminate ibuprofen (IBP) from hospital wastewater using sea mud as an HO activator. Sea sludge was converted into catalysts at different temperatures and residence times in furnaces, and then tested in the removal of IBP, and the most efficient ones were reported for the production of catalysts. The catalyst was optimized at 400 °C and 3 h. SEM-mapping, FTIR, EDX, BET, and BJH experiments were used to characterize the catalyst. Experiments were done at two pulsed and continuous ultrasonication modes in a photoreactor, and their efficiencies were statistically compared. The designed variables included IBP concentration (10-100 mg/L), the catalyst concentration (0-3 g/L), pH (4-9), and time (10-90 min). The oxidation process had the maximum efficiency at pH 4, treatment time of 60 min, catalyst quantity of 5 g/L, and IBP content of 50 mg/L. The catalyst was recycled, and in the fifth stage, the removal efficiency of IBP was reduced to 50%. The amount of energy consumed for treating IBP laden-wastewater using the evaluated catalyst in two modes of continuous and pulsed ultrasonic was calculated as 102 kW h/m and 10 kW h/m, respectively. IBP oxidation process was fitted with the first-order kinetic model. The system can be proposed for purifying hospital and pharmaceutical wastewaters.
本研究的主要目的是利用海泥作为 HO 活化剂来去除医院废水中的布洛芬(IBP)。海泥在不同温度和炉内停留时间下转化为催化剂,然后用于去除 IBP,报告了最有效的催化剂用于生产催化剂。在 400°C 和 3 小时下对催化剂进行了优化。采用 SEM 映射、FTIR、EDX、BET 和 BJH 实验对催化剂进行了表征。在光反应器中以两种脉冲和连续超声模式进行了实验,并对其效率进行了统计比较。设计的变量包括 IBP 浓度(10-100mg/L)、催化剂浓度(0-3g/L)、pH 值(4-9)和时间(10-90min)。在 pH 值为 4、处理时间为 60min、催化剂用量为 5g/L、IBP 含量为 50mg/L 的条件下,氧化过程的效率最高。催化剂被回收,在第五阶段,IBP 的去除效率降低至 50%。在两种连续和脉冲超声模式下,使用评估的催化剂处理含 IBP 的废水所需的能量分别为 102kW·h/m 和 10kW·h/m。IBP 氧化过程符合一级动力学模型。该系统可用于净化医院和制药废水。
