Abstract

AbstractBACKGROUNDSeveral studies have addressed the adsorption of pesticides such as alachlor, acetochlor, metolachlor, and fenthion from water and wastewater, yet the interaction of these compounds with natural organic matter (NOM) complicates their effective removal due to competitive adsorption effects. This study aims to fill this gap by exploring the efficacy of nitric acid and chlorosulfonic acid‐modified activated carbons in removing both pesticides and NOM under realistic environmental conditions.RESULTSModifications using nitric acid and chlorosulfonic acid significantly improved the pesticide removal capabilities of Norit SX F Cat (AC1) adsorbents. While both the original and chlorosulfonic acid‐modified adsorbents showed comparable efficacy in pesticide removal, nitric acid‐modified AC Puriss (AC2) adsorbents were less effective. Remarkably, a 100 mg/L dose of both original and modified powdered activated carbons (PACs) removed over 98% of all four pesticides from water samples. Additionally, a lower 25 mg/L dose effectively achieved similar removal rates, demonstrating their utility as feasible options for water treatment.CONCLUSIONModifying powdered activated carbons with nitric acid and chlorosulfonic acid has been proven to enhance their structural and adsorptive properties significantly. These modifications led to improved pesticide removal efficiencies, particularly with the chlorosulfonic acid‐modified PACs, which demonstrated superior performance in adsorption tests. The study also highlighted the competitive adsorption posed by low‐molecular‐weight organic substances in water, which compete with pesticides for active adsorption sites.This article is protected by copyright. All rights reserved.

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