Membrane-Based Persulfate Activation for Wastewater Treatment: A Critical Review of Materials, Mechanisms and Expectation DOI Open Access
Wenye Li,

Lin Guo,

Binghan Xie

et al.

Water, Journal Year: 2025, Volume and Issue: 17(8), P. 1233 - 1233

Published: April 21, 2025

Membrane-based persulfate catalysis technology offers a dual approach to wastewater treatment by facilitating both physical separation and chemical oxidation. This innovative method significantly enhances pollutant removal efficiency while mitigating membrane fouling, positioning it as promising advanced oxidation for management. review comprehensively examines the critical aspects of material design, activation mechanisms, technological challenges. Membrane materials structures are crucial enhancing overall technology. By analyzing various catalytic modification strategies, study reveals intricate interactions between structures, performance, degradation. The clear mechanism degradation is key achieve accurate research highlights three primary pathways: free radical, non-radical, hybrid each offering unique advantages in addressing complex water contamination. Finally, future challenges directions put forward. Despite remarkable progress, remain stability, economic feasibility, large-scale implementation. Therefore, this outlines latest materials, prospects membrane-based technology, which expected promote its widespread application environmental governance.

Language: Английский

Membrane-Based Persulfate Activation for Wastewater Treatment: A Critical Review of Materials, Mechanisms and Expectation DOI Open Access
Wenye Li,

Lin Guo,

Binghan Xie

et al.

Water, Journal Year: 2025, Volume and Issue: 17(8), P. 1233 - 1233

Published: April 21, 2025

Membrane-based persulfate catalysis technology offers a dual approach to wastewater treatment by facilitating both physical separation and chemical oxidation. This innovative method significantly enhances pollutant removal efficiency while mitigating membrane fouling, positioning it as promising advanced oxidation for management. review comprehensively examines the critical aspects of material design, activation mechanisms, technological challenges. Membrane materials structures are crucial enhancing overall technology. By analyzing various catalytic modification strategies, study reveals intricate interactions between structures, performance, degradation. The clear mechanism degradation is key achieve accurate research highlights three primary pathways: free radical, non-radical, hybrid each offering unique advantages in addressing complex water contamination. Finally, future challenges directions put forward. Despite remarkable progress, remain stability, economic feasibility, large-scale implementation. Therefore, this outlines latest materials, prospects membrane-based technology, which expected promote its widespread application environmental governance.

Language: Английский

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