Enhancement of Tunisian groundwater treatment through the simultaneous removal of sulfate, nitrate and nitrogen by-products using a hybrid electrochemical process

Combined electrocoagulation (EC) and electrooxidation (EO) process was applied to increase Tunisia's drinking water potential from a highly sulfate and nitrate contaminated groundwater. Firstly, batch EC experiments were carried out using Al electrodes under current density (7.2 to 59.5 mA cm−2...

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Veröffentlicht in:	Journal of water process engineering 2024-10, Vol.687
Hauptverfasser:	Ben Arfa, Maha, Attour, Anis, Ursu, Alina-Violeta, Audonnet, Fabrice, Elfil, Hamza, Vial, Ch
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Sprache:	eng
Schlagworte:	Engineering Sciences Environmental Sciences
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container_title	Journal of water process engineering
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creator	Ben Arfa, Maha Attour, Anis Ursu, Alina-Violeta Audonnet, Fabrice Elfil, Hamza Vial, Ch
description	Combined electrocoagulation (EC) and electrooxidation (EO) process was applied to increase Tunisia's drinking water potential from a highly sulfate and nitrate contaminated groundwater. Firstly, batch EC experiments were carried out using Al electrodes under current density (7.2 to 59.5 mA cm−2), initial pH (3.0 to 11.0), and temperature (10.0 to 50.0 °C). The results showed that high removal efficiencies, 83.2 % and 82.1 % for sulfate and nitrate, respectively, were achieved at 42.8 mA cm−2, initial pH 7.0, and 30.0 °C, while excessive amounts of 0.4 mg NO2−_N L−1 and 11.6 mg NH4+_N L−1 were produced. The mechanism study revealed that, at ambient temperature (20–30 °C), sulfate removal by adsorption on Al hydroxides was dependent of generated amount of hydroxide anions resulting from nitrate reduction into nitrogen by-products on the cathode. In second step, EO using a novel electrodes' combination (Ti/RuO2 anode and Ti cathode), under current density (7.5 to 30.0 mA cm−2), initial pH (8.5, 10.0), and initial temperature (10.0 to 50.0 °C), was implemented. The optimized conditions were found at 15.0 mA cm−2, initial pH 8.5, and 20.0 °C, leading to complete removal of NO2− and NH4+ in the form of N2 in
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Firstly, batch EC experiments were carried out using Al electrodes under current density (7.2 to 59.5 mA cm−2), initial pH (3.0 to 11.0), and temperature (10.0 to 50.0 °C). The results showed that high removal efficiencies, 83.2 % and 82.1 % for sulfate and nitrate, respectively, were achieved at 42.8 mA cm−2, initial pH 7.0, and 30.0 °C, while excessive amounts of 0.4 mg NO2−_N L−1 and 11.6 mg NH4+_N L−1 were produced. The mechanism study revealed that, at ambient temperature (20–30 °C), sulfate removal by adsorption on Al hydroxides was dependent of generated amount of hydroxide anions resulting from nitrate reduction into nitrogen by-products on the cathode. In second step, EO using a novel electrodes' combination (Ti/RuO2 anode and Ti cathode), under current density (7.5 to 30.0 mA cm−2), initial pH (8.5, 10.0), and initial temperature (10.0 to 50.0 °C), was implemented. 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title	Enhancement of Tunisian groundwater treatment through the simultaneous removal of sulfate, nitrate and nitrogen by-products using a hybrid electrochemical process
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