环境修复
废水
膜蒸馏
纳滤
环境化学
环境科学
化学
反渗透
膜
废物管理
生化工程
海水淡化
环境工程
污染
工程类
生物
生物化学
生态学
作者
Mustafa N. Taher,Sama A. Al-Mutwalli,Sibel Barışçı,Derya Y. Köseoğlu-İmer,Ludovic F. Dumée,Mohammad Mahdi A. Shirazi
标识
DOI:10.1016/j.jwpe.2024.104858
摘要
Per - and polyfluorinated substances (PFAS) are stable, extremely toxic compounds that threaten human and environmental health. In various regions, water and wastewater streams contain 8 to 110 ng/L of PFAS. PFAS' hydrophobic and oleophobic characteristics, chemical and mechanical stability, and strong resistance to biological, chemical, and thermal degradation make them difficult to remove from aquatic settings. PFAS removal from aquatic environments using membrane technologies is promising due to their superior rejection of various PFAS categories and maturity level. This review article discusses membrane technologies' present trajectory to remove PFAS in water and wastewater treatment . Current advances in reverse osmosis , nanofiltration , membrane distillation, and adsorptive nanofiber membranes are examined, including their pros and cons. Hybrid technologies that combine membrane technologies with non-destructive or destructive methods are promising PFAS removal methods. Along with scientific discourse, this review critically discusses techno-economic elements of single and hybrid membrane processes to determine their practicality and cost-efficiency for implementation. This paper covers the newest membrane technologies for PFAS cleanup. Additionally, it sheds light on this essential domain's research prospects.
科研通智能强力驱动
Strongly Powered by AbleSci AI