介孔ZnO负载Fe-Cu-Zr复合催化剂用于催化燃烧降解乙酸丁酯

采用醇热法制备了有序球状介孔ZnO负载Fe-Cu-Zr复合催化剂,应用BET、SEM、XRD、XPS等对不同物质的量比催化剂进行了表征,研究了催化降解乙酸丁酯的活性及其影响因素,并推测了降解机理.结果表明,铁铜锆复合催化剂颗粒均匀,分散性较好,孔径大部分小于50 nm,比表面积为46～68 m²·g^-1.各活性成分能够共存和协同发挥作用,铁、铜、锆离子吸附在氧化锌晶胞内,粒子间量子作用力促使晶胞表面积略有变大.锆能够提高3种活性成分间的作用力,可以调节表面电子密度,促使结合能向低的方向偏移,增强催化剂的氧化还原能力.随着锆比例的增大,催化剂的活性也随之增强;随着初始浓度、空速、相对湿度的增加,乙酸丁酯降解效率均有所下降.在乙酸丁酯初始浓度为2590 mg·m^-3、空速为9000 h^-1的工况下,ZnO-3M催化剂降解乙酸丁酯的T₅₀为116℃,T₉₀为200℃,270℃时CO₂转化率达96%,具有良好的低温催化活性和稳定性.乙酸丁酯催...     

A review on sustainable reuse applications of Fenton sludge during wastewater treatment

• The sustainable approaches related to Fenton sludge reuse systems are summarized. • Degradation mechanism of Fenton sludge heterogeneous catalyst is deeply discussed. • The efficient utilization directions of Fenton sludge are proposed. The classical Fenton oxidation process (CFOP) is a versatile and effective application that is generally applied for recalcitrant pollutant removal. However, excess iron sludge production largely restricts its widespread application. Fenton sludge is a hazardous solid waste, which is a complex heterogeneous mixture with Fe(OH)₃, organic matter, heavy metals, microorganisms, sediment impurities, and moisture. Although studies have aimed to utilize specific Fenton sludge resources based on their iron-rich characteristics, few reports have fully reviewed the utilization of Fenton sludge. As such, this review details current sustainable Fenton sludge reuse systems that are applied during wastewater treatment. Specifically, coagulant preparation, the reuse of Fenton sludge as an iron source in the Fenton process and as a synthetic heterogeneous catalyst/adsorbent, as well as the application of the Fenton sludge reuse system as a heterogeneous catalyst for resource utilization. This is the first review article to comprehensively summarize the utilization of Fenton sludge. In addition, this review suggests future research ideas to enhance the cost-effectiveness, environmental sustainability, and large-scale feasibility of Fenton sludge applications.     

单原子环境催化研究进展

单原子催化剂不仅实现了对金属原子最大化利用,而且具有较高催化活性和选择性,还是理想的催化理论研究位点,近年来引起了广泛关注。环境催化在环境保护和污染修复中扮演着重要的角色。单原子催化剂在环境催化领域越来越受关注并有望应用于解决环境问题。单原子催化剂研究的重点和难点集中在单原子催化剂可控合成和催化位点分析表征。为推进单原子催化剂在环境催化领域中的应用,本文综述了单原子的主要制备方法和常规表征手段以及单原子催化剂在环境催化中应用的典型案例,并对单原子催化剂在环境催化中的应用将面临的挑战进行了展望。