Advancing wastewater treatment: The efficacy of carbon-based electrochemical platforms in removal of pharmaceuticals

[Display omitted] •Biochar and g-C3N4 materials are used as electrochemical platforms for the degradation of micropollutants.•Biochar-coated rings achieved over 80% pharmaceutical removal in wastewater.•Biochar rings outperformed beads and g-C3N4 rings despite higher power consumption.•The formation...

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Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 500; p. 156946
Main Authors Svitková, Veronika, Nemčeková, Katarína, Drdanová, Alexandra Paulína, Imreová, Zuzana, Tulipánová, Alexandra, Homola, Tomáš, Zažímal, František, Debnárová, Stanislava, Stýskalík, Aleš, Ryba, Jozef, Bača, Ľuboš, Šimunková, Miriama Malček, Gál, Miroslav, Mackuľak, Tomáš, Vojs Staňová, Andrea
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.11.2024
Subjects
Advanced electrochemical wastewater treatment
Biochar
Graphitic carbon nitride
Organic pollutants
Advanced electrochemical wastewater treatment
Organic pollutants
Biochar
Graphitic carbon nitride
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Abstract [Display omitted] •Biochar and g-C3N4 materials are used as electrochemical platforms for the degradation of micropollutants.•Biochar-coated rings achieved over 80% pharmaceutical removal in wastewater.•Biochar rings outperformed beads and g-C3N4 rings despite higher power consumption.•The formation of •OH and 1O2 radicals was observed for the first time using g-C3N4.•Effective removal requires optimizing material properties and operational settings. The study addresses the efficiency of innovative biochar- and g-C3N4-coated electrochemical platforms in removing selected pharmaceuticals and their metabolites from wastewater, with a focus on cost-effective and scalable materials. Analysis of effluent from the wastewater treatment plant revealed significant concentrations of 25 pharmaceuticals, highlighting the plant’s limited treatment efficacy. Notably higher levels of Telmisartan, Tramadol, and Diclofenac were found. The novelty of this work lies in the use of biochar- and g-C3N4-coated Raschig rings and glass beads as efficient electrochemical anodes offering high degradation capabilities. Adsorption-only tests (without voltage load) confirmed that no significant pharmaceutical removal occurs without electrochemical activation, highlighting the importance of electrochemical degradation. For the first time, we observed the formation of hydroxyl radicals (•OH) and singlet oxygen (1O2) during the electrochemical degradation process using g-C3N4-coated anodes, significantly enhancing degradation efficiency. The biochar-coated Raschig rings achieved over 80 % removal efficiency for all tested pharmaceuticals, with a power consumption of 85.2 kWh/m3. In comparison, biochar-coated beads exhibited a removal efficiency ranging from 9 % to 99 %, consuming 75 kWh/m3, while g-C3N4-coated rings showed the lowest performance at an energy consumption of 45 kWh/m3. These findings demonstrate the potential of both, biochar- and g-C3N4-based electrochemical platforms as a viable, scalable solution for advanced wastewater treatment, particularly for pharmaceutical degradation.
AbstractList [Display omitted] •Biochar and g-C3N4 materials are used as electrochemical platforms for the degradation of micropollutants.•Biochar-coated rings achieved over 80% pharmaceutical removal in wastewater.•Biochar rings outperformed beads and g-C3N4 rings despite higher power consumption.•The formation of •OH and 1O2 radicals was observed for the first time using g-C3N4.•Effective removal requires optimizing material properties and operational settings. The study addresses the efficiency of innovative biochar- and g-C3N4-coated electrochemical platforms in removing selected pharmaceuticals and their metabolites from wastewater, with a focus on cost-effective and scalable materials. Analysis of effluent from the wastewater treatment plant revealed significant concentrations of 25 pharmaceuticals, highlighting the plant’s limited treatment efficacy. Notably higher levels of Telmisartan, Tramadol, and Diclofenac were found. The novelty of this work lies in the use of biochar- and g-C3N4-coated Raschig rings and glass beads as efficient electrochemical anodes offering high degradation capabilities. Adsorption-only tests (without voltage load) confirmed that no significant pharmaceutical removal occurs without electrochemical activation, highlighting the importance of electrochemical degradation. For the first time, we observed the formation of hydroxyl radicals (•OH) and singlet oxygen (1O2) during the electrochemical degradation process using g-C3N4-coated anodes, significantly enhancing degradation efficiency. The biochar-coated Raschig rings achieved over 80 % removal efficiency for all tested pharmaceuticals, with a power consumption of 85.2 kWh/m3. In comparison, biochar-coated beads exhibited a removal efficiency ranging from 9 % to 99 %, consuming 75 kWh/m3, while g-C3N4-coated rings showed the lowest performance at an energy consumption of 45 kWh/m3. These findings demonstrate the potential of both, biochar- and g-C3N4-based electrochemical platforms as a viable, scalable solution for advanced wastewater treatment, particularly for pharmaceutical degradation.
ArticleNumber 156946
Author Tulipánová, Alexandra
Debnárová, Stanislava
Stýskalík, Aleš
Gál, Miroslav
Nemčeková, Katarína
Drdanová, Alexandra Paulína
Šimunková, Miriama Malček
Homola, Tomáš
Ryba, Jozef
Bača, Ľuboš
Mackuľak, Tomáš
Svitková, Veronika
Zažímal, František
Imreová, Zuzana
Vojs Staňová, Andrea
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  givenname: Miriama Malček
  surname: Šimunková
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  surname: Gál
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  surname: Vojs Staňová
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  organization: South Bohemian Research Center of Aquaculture and Biodiversity of Hydrocenoses, Faculty of Fisheries and Protection of Waters, University of South Bohemia in České Budejovice, Zátiší 728/II, 389 25 Vodňany, Czech Republic
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Graphitic carbon nitride
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Snippet [Display omitted] •Biochar and g-C3N4 materials are used as electrochemical platforms for the degradation of micropollutants.•Biochar-coated rings achieved...
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SubjectTerms Advanced electrochemical wastewater treatment
Biochar
Graphitic carbon nitride
Organic pollutants
Title Advancing wastewater treatment: The efficacy of carbon-based electrochemical platforms in removal of pharmaceuticals
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