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Electrochemical technologies for sustainable agricultural water treatment and resource recovery

Jianan Zhan, Yongkang Yao, Xian Wang

2025International Journal of Electrochemical Science14 citationsDOIOpen Access PDF

Abstract

Electrochemical technologies are emerging as modular, low-chemical, and energy-efficient solutions for treating and valorizing agricultural water streams. This review synthesizes the state-of-the-art in six core electrochemical processes—electrocoagulation, electroflotation, electrodialysis , capacitive deionization, electrochemical advanced oxidation , and electro-reductive pathways—and evaluates their effectiveness for removing sediments, nutrients, salts, organic micropollutants, and pathogens. We compare removal efficiencies, resource-recovery yields, energy consumption, and operational challenges across bench-, pilot-, and field-scale studies. Key insights include the high phosphorus recovery (>99 %) achievable via electrocoagulation, selective nitrate concentration by electrodialysis for fertilizer reuse, sub-kWh m⁻³ energy footprints of capacitive deionization for brackish irrigation water, and > 99 % degradation of persistent pesticides using advanced oxidation anodes. Looking ahead, we identify three critical research priorities: (1) development of low-cost, fouling-resistant electrode materials tailored for complex agricultural matrices; (2) integration of electrochemical units with renewable energy sources and biological polishing to maximize circularity; and (3) techno-economic assessments and long-term field demonstrations to validate performance under variable on-farm conditions. Addressing these gaps will accelerate deployment of decentralized electrochemical water treatment systems—advancing nutrient circularity, safeguarding water resources, and enhancing resilience of agricultural landscapes.

Topics & Concepts

Resource (disambiguation)AgricultureBusinessNatural resource economicsEnvironmental scienceElectrochemistryWater resource managementComputer scienceGeographyChemistryEconomicsArchaeologyComputer networkPhysical chemistryElectrodeMembrane-based Ion Separation TechniquesExtraction and Separation ProcessesMembrane Separation Technologies