Mineralization of mefenamic acid from hospital wastewater using electro‐Fenton degradation: Optimization and identification of removal mechanism issues

Dolatabadi, Maryam; Ahmadzadeh, Saeid; Ghaneian, Mohammad Taghi

doi:10.1002/ep.13380

Cited by 44 publications

(5 citation statements)

References 28 publications

(28 reference statements)

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“…Electro‐Fenton (EF) process is a promising technology with great potential in the treatment of wastewater containing salts and hazardous organic pollutants, such as pesticide, pharmaceutical, and hospital wastewater . [ 1–4 ] Hydroxyl radical (·OH) with high oxidation potential (0.28 V/SHE) can be continuously generated during EF process (Equation (1)), and further degrades the organic pollutants. [ 5 ] The major advantage of EF is that H 2 O 2 can be electrogenerated onsite through the selectively reduction of O 2 (Equation (2)), which avoids the risks during the transportation and storage of concentrated H 2 O 2 .…”

Section: Introductionmentioning

confidence: 99%

Hierarchical Iron Phosphides Composite Confined in Ultrathin Carbon Layer as Effective Heterogeneous Electro‐Fenton Catalyst with Prominent Stability and Catalytic Activity

Cheng

Zheng

Shen

et al. 2021

Adv Funct Materials

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The heterogeneous electro-Fenton (EF) process is a promising wastewater treatment technology for the onsite production of H 2 O 2 and avoidance of iron sludge. However, the preparation of the cathode catalysts remains a challenge. Not only must the catalyst surface possesses active sites for both 2e − oxygen reduction reaction and heterogeneous Fenton reaction, preventing active metals from continuous leaching is also crucial to maintain its catalytic activity. Herein, a heterogeneous catalyst (rGO@Fe x P/C) with a vacuumized package-like structure, where carbon-supported iron phosphides (Fe x P/C) are tightly covered within interconnected reduced graphene oxide (rGO) sheets, is successfully prepared. The concentration of iron that dissolved from rGO@ Fe x P/C after the reaction is only 3.37% of bare Fe x P/C (14.6 mg L −1 ), while rGO@Fe x P/C achieves better performance towards sulfamethoxazole (10 mg L −1 ) degradation than Fe x P/C. Investigation on rGO@Fe x P/C with different thicknesses of outer rGO layer and diverse morphologic structures demonstrate that the unique structure of rGO@Fe x P/C played a decisive role in the simultaneously enhanced activity and stability.

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Section: Introductionmentioning

confidence: 99%

Hierarchical Iron Phosphides Composite Confined in Ultrathin Carbon Layer as Effective Heterogeneous Electro‐Fenton Catalyst with Prominent Stability and Catalytic Activity

Cheng

Zheng

Shen

et al. 2021

Adv Funct Materials

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“…One of the most evaluated remediation technologies for the treatment of liquid wastes are the electrochemical advanced oxidation processes (EAOPs), which have exhibited huge efficiencies removing organic compounds from effluents [6][7][8][9][10][11]. Furthermore, these techniques have been reported as one of the cleaner and more sustainable remediation processes because they only need electricity for in-situ production of reagents.…”

Section: Introductionmentioning

confidence: 99%

Modelling of the treatment of wastewater by photovoltaic solar electrochemical oxidation (PSEO) assisted by redox-flow batteries

Millán

Fernández-Marchante

Lobato

et al. 2021

Journal of Water Process Engineering

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“…The pH is an important parameter that directly influences the pollutant removal from industrial wastewater (Dolatabadi, Ahmadzadeh, & Ghaneian, 2020). As observed in Figure 6c, the COD removal (%) efficiency is higher in the neutral medium compared with both acidic and basic media.…”

Section: Resultsmentioning

confidence: 99%

Optimization of pharmaceutical wastewater treatment by electrocoagulation and dual coagulation

Perumalsamy

Chithra

Ajith

et al. 2022

Water & Environment J

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The present study compares the treatment of pharmaceutical industry wastewater (PIWW) by coagulation‐flocculation (C‐F) and electrocoagulation (EC) techniques using response surface methodology (RSM). EC was performed with waste food‐grade Aluminium (Al) foil as a sacrificial anode. In C‐F, to minimize chemical usage, dual coagulants Aloe vera (organic) and ferric chloride (chemical) were used. Optimization using RSM for C‐F showed chemical oxygen demand (COD) reduction of 60.25 ± 0.28% at optimum operating conditions with R2 = 0.964 and adj‐R2 = 0.928, whereas EC resulted in COD reduction of 78.23 ± 0.38% and energy consumption 1.498 ± 0.0076kWh/m3 with R2 = 0.978 and adj‐R2 = 0.956. The result showed that the use of food‐grade waste Al foil as anode electrode (in EC) and the use of dual coagulant (in C‐F) can reduce COD from industrial effluent efficiently contributing to less hazardous sludge generation.

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Mineralization of mefenamic acid from hospital wastewater using electro‐Fenton degradation: Optimization and identification of removal mechanism issues

Cited by 44 publications

References 28 publications

Hierarchical Iron Phosphides Composite Confined in Ultrathin Carbon Layer as Effective Heterogeneous Electro‐Fenton Catalyst with Prominent Stability and Catalytic Activity

Hierarchical Iron Phosphides Composite Confined in Ultrathin Carbon Layer as Effective Heterogeneous Electro‐Fenton Catalyst with Prominent Stability and Catalytic Activity

Modelling of the treatment of wastewater by photovoltaic solar electrochemical oxidation (PSEO) assisted by redox-flow batteries

Optimization of pharmaceutical wastewater treatment by electrocoagulation and dual coagulation

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