Scaled-up electrochemical reactor with a fixed bed three-dimensional cathode for electro-Fenton process: Application to the treatment of bisphenol A

Chmayssem, Ayman; Taha, Samir; Hauchard, Didier

doi:10.1016/j.electacta.2016.12.183

Cited by 56 publications

(18 citation statements)

References 38 publications

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“…studied. Chemical oxidation is widely used for wastewater treatment, such as Fenton process (Chmayssem et al 2017) and ozone treatment (Akbari et al 2016) could effectively oxidize the organic contaminants in the aquatic system. Electrochemical method (Gui et al 2018) is to apply electrolysis for contaminant removal.…”

Section: Introductionmentioning

confidence: 99%

“…In China, up to 144 ng/mL of bisphenol analogues was detected in serum samples from pregnant women (Li et al 2020) studied. Chemical oxidation is widely used for wastewater treatment, such as Fenton process (Chmayssem et al 2017) and ozone treatment (Akbari et al 2016) could effectively oxidize the organic contaminants in the aquatic system. Electrochemical method (Gui et al 2018) quickly dissolute silver nanoparticles in the solution, therefore PVA was further immobilized to stabilize the nanoparticle.…”

Section: Introductionmentioning

confidence: 99%

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Influence of Aqueous Chloride and Bromide Anions on the Reactivity of ZnO on Bisphenol a Degradation

Yang

Sahu

Shih

2021

Preprint

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Zinc oxide (ZnO) nanoparticles have been widely investigated for applications in photocatalytic degradation of organic pollutants in wastewater. Despite the advantages of robust ZnO material, its photocatalytic activity is greatly affected by environmental factors. Halogen ions are commonly found in wastewater, which directly influence the pollutant aggregation and sedimentation, therefore it is necessary to discuss their effect on the photodegradation. The current study assesses the halogen ions effect on the photocatalytic degradation of BPA using different dosage of sodium chloride (NaCl) and sodium bromide (NaBr). The microstructural characterization of ZnO was conducted by transmission electron microscopy and hydrodynamic size was analyzed through dynamic light scattering. Degradation reactions of BPA with ZnO nanoparticles followed pseudo-first-order kinetics. The increase of ZnO dosage from 0.01 g/L to 0.1 g/L enhanced the degradation rate constant of BPA up to 0.089 min-1 (14.8 folds). In order to evaluate the the role halogen ions to degrade BPA, NaBr and NaCl were used. The degradation rate was reduced up to 26 folds (0.0034 min-1) after the addition of NaBr, which was attributed to the increase in hydrodynamic particle size leading, thereby restricting the light adsorption capacity. Noteworthy, upon addition of NaCl from 10 mM to 500 mM concentration, there was only a slight decrease (2.4 folds, 0.037 min-1) on the degradation rate of BPA. Therefore, this study unveils the role of chloride ions as an effective medium for BPA degradation by ZnO nanoparticles, without aggregation, and provides a novel platform for the treatment of organic pollutants in saline water.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Influence of Aqueous Chloride and Bromide Anions on the Reactivity of ZnO on Bisphenol a Degradation

Yang

Sahu

Shih

2021

Preprint

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“…Up to the present, various techniques have been used to remove BPA from aqueous solutions such as adsorption [5][6][7], biodegradation [8][9][10], electrochemical techniques [11,12] and advanced oxidation techniques [13][14][15]. Adsorption is very simple and effective due to its ease of operation and relatively low cost.…”

Section: Introductionmentioning

confidence: 99%

Bisphenol A Removal From Aqueous Phase via Polymeric Microbeads/ Polimerik Mikroküreler ile Bisfenol A Uzaklaştırılması

Osman

Özer

2019

Hacettepe Journal of Biology and Chemistry

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B u çalışmanın amacı, poli(divinilbenzen-N-metakriloil-L-triptofan metil ester) [poli(DVB-MATrp)] mikrokürelerin (ortalama çap: 150-200 μm) sulu fazdan bisfenol A (BPA) uzaklaştırılmasındaki etkinliğinin araştırılmasıdır. Poli(DVB-MATrp) mikroküreler N-metakriloil-L-triptofan metil ester (MATrp) monomerinin divinilbenzen (DVB) varlığında polimerleştirilmesi ile sentezlendi. Poli(DVB-MATrp) mikroküreler Fourier dönüşüm infrared spektroskopisi (FTIR), elementel analiz, taramalı elektron mikroskobu (SEM), ve şisme testi ile karakterize edildi. Poli(DVB-MATrp) mikrokürelerin sulu fazdan BPA adsorplamadaki etkinliği pH, başlangıç derişimi, temas süresi ve sıcaklığın etkisinin araştırılması ile incelendi. Mikrokürelerin BPA adsorpsiyon kapasitesi pH 7.0 ve 25 o C sıcaklıkta 171.1 mg/g olarak belirlendi. Elde edilen adsorpsiyon verilerinin Langmuir ve Freundlich izoterm modellerine uygunluğu araştırıldı. Adsorpsiyonun yalanı-ikinci-derece kinetik modele uygun olduğu belirlendi. Sentezlenen mikroküreler, BPA adsorpsiyon kapasitesinde önemli bir değişiklik olmaksızın tekrar tekrar kullanıldı.

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“…In this communication, we are reporting a preliminary study on a novel reactor arrangement designed to overcome these important drawbacks. It is hoped that this reactor arrangement could constitute the basis for the development of efficient and cost effective electro-Fenton water treatment processes well suited for a wide variety of polluted wastewaters ( Ma et al., 2016 , Roth et al., 2016 , Chmayssem et al., 2017 ).…”

Section: Introductionmentioning

confidence: 99%

Novel arrangement for an electro-Fenton reactor that does not require addition of iron, acid and a final neutralization stage. Towards the development of a cost-effective technology for the treatment of wastewater

et al. 2018

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A novel arrangement for an electro-Fenton reactor aimed to treat neutral wastewater is presented. The arrangement consists on three-compartments in series, two of them packed with a cation exchange resin and one positioned between these, containing a polarized activated carbon column where the electrochemical generation of the Fenton reagent takes place. While the hydroxyl radicals electrochemically produced in-situ, react with the pollutant species adsorbed on the activated carbon cathode, the resin compartments administrate and collect the iron cation and the hydrated proton species in alternating flow direction cycles. The resulting process is a system that does not require acid or iron chemical addition to the process while at the same time, renders decontaminated water free of iron-dissolved species at neutral pH. The proposed electrochemical reactor arrangement is therefore the basis for the design of commercially viable electro-Fenton reactors in which the addition and subsequent removal of acid and iron chemicals is avoided; two of the currently most limiting features for the development of electro-Fenton technology for treating wastewater.

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Scaled-up electrochemical reactor with a fixed bed three-dimensional cathode for electro-Fenton process: Application to the treatment of bisphenol A

Cited by 56 publications

References 38 publications

Influence of Aqueous Chloride and Bromide Anions on the Reactivity of ZnO on Bisphenol a Degradation

Influence of Aqueous Chloride and Bromide Anions on the Reactivity of ZnO on Bisphenol a Degradation

Bisphenol A Removal From Aqueous Phase via Polymeric Microbeads/ Polimerik Mikroküreler ile Bisfenol A Uzaklaştırılması

Novel arrangement for an electro-Fenton reactor that does not require addition of iron, acid and a final neutralization stage. Towards the development of a cost-effective technology for the treatment of wastewater

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Scaled-up electrochemical reactor with a fixed bed three-dimensional cathode for electro-Fenton process: Application to the treatment of bisphenol A

Cited by 56 publications

References 38 publications

Influence of Aqueous Chloride and Bromide Anions on the Reactivity of ZnO&nbsp;on Bisphenol a Degradation

Influence of Aqueous Chloride and Bromide Anions on the Reactivity of ZnO&nbsp;on Bisphenol a Degradation

Bisphenol A Removal From Aqueous Phase via Polymeric Microbeads/ Polimerik Mikroküreler ile Bisfenol A Uzaklaştırılması

Novel arrangement for an electro-Fenton reactor that does not require addition of iron, acid and a final neutralization stage. Towards the development of a cost-effective technology for the treatment of wastewater

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Influence of Aqueous Chloride and Bromide Anions on the Reactivity of ZnO on Bisphenol a Degradation

Influence of Aqueous Chloride and Bromide Anions on the Reactivity of ZnO on Bisphenol a Degradation