Olive mill waste bio-based catalyst application in advanced oxidation processes for wastewater treatment

This study explores the physicochemical capacities of solid wastes from olive oil mills (olive stone, OS, and olive pomace, OP), in obtaining catalysts to be applied in heterogeneous Fenton and persulfate processes. Through physicochemical treatments and the impregnation of iron by hydrothermal depo...

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Published inCatalysis today Vol. 432; p. 114618
Main Authors Rocha, Kleper O., Brandão, Francisco, Mendes, C.átia, Carvalho, Maria G.V.S., Mazierski, Paweł, Zaleska-Medynska, Adriana, Gomes, João, Martins, Rui C., Domingues, Eva
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.04.2024
Subjects
Fenton process
Hydrothermal deposition
Olive waste
Phenolic acids
Sulfate-based processes
Wet impregnation
Olive waste
Hydrothermal deposition
Fenton process
Sulfate-based processes
Phenolic acids
Wet impregnation
Online AccessGet full text

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Abstract This study explores the physicochemical capacities of solid wastes from olive oil mills (olive stone, OS, and olive pomace, OP), in obtaining catalysts to be applied in heterogeneous Fenton and persulfate processes. Through physicochemical treatments and the impregnation of iron by hydrothermal deposition and wetness impregnation (WI) different catalysts were produced, tested and characterized. The olive mill wastewater (OMW) studied in this work is a synthetic solution with five phenolic compounds to mimic the real effluent. The removal efficiency of phenolic acids and organic load (COD) present in this type of effluent was evaluated. In the treatment of synthetic wastewater, almost 100% COD was removed using OS and OP-FeWI as catalysts in the heterogeneous Fenton process. In the sulfate radical-based reaction, the 3,4–Dihydroxybenzoic acid was slightly more degradable than other phenolic acids which confirms the selectivity of sulfate radicals. The materials subject to thermal processes revealed an interesting adsorption capacity. This procedure not only reduces the environmental impact of OMW, but also promotes the implementation of new circular economy approaches. [Display omitted] •Olive mill waste can be suitable used for the preparation of iron catalysts.•Incipient wetness and hydrothermal impregnation were used for Fe catalyst preparation.•Fenton process almost reduces all initial chemical oxygen demand from simulated olive mill wastewater.•Olive mill waste biochar with incipient wetness Fe impregnation is the better adsorbent.
AbstractList This study explores the physicochemical capacities of solid wastes from olive oil mills (olive stone, OS, and olive pomace, OP), in obtaining catalysts to be applied in heterogeneous Fenton and persulfate processes. Through physicochemical treatments and the impregnation of iron by hydrothermal deposition and wetness impregnation (WI) different catalysts were produced, tested and characterized. The olive mill wastewater (OMW) studied in this work is a synthetic solution with five phenolic compounds to mimic the real effluent. The removal efficiency of phenolic acids and organic load (COD) present in this type of effluent was evaluated. In the treatment of synthetic wastewater, almost 100% COD was removed using OS and OP-FeWI as catalysts in the heterogeneous Fenton process. In the sulfate radical-based reaction, the 3,4–Dihydroxybenzoic acid was slightly more degradable than other phenolic acids which confirms the selectivity of sulfate radicals. The materials subject to thermal processes revealed an interesting adsorption capacity. This procedure not only reduces the environmental impact of OMW, but also promotes the implementation of new circular economy approaches. [Display omitted] •Olive mill waste can be suitable used for the preparation of iron catalysts.•Incipient wetness and hydrothermal impregnation were used for Fe catalyst preparation.•Fenton process almost reduces all initial chemical oxygen demand from simulated olive mill wastewater.•Olive mill waste biochar with incipient wetness Fe impregnation is the better adsorbent.
ArticleNumber 114618
Author Domingues, Eva
Martins, Rui C.
Zaleska-Medynska, Adriana
Rocha, Kleper O.
Mazierski, Paweł
Brandão, Francisco
Carvalho, Maria G.V.S.
Mendes, C.átia
Gomes, João
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  givenname: C.átia
  surname: Mendes
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  givenname: João
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  givenname: Rui C.
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  givenname: Eva
  surname: Domingues
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  email: evadomingues@eq.uc.pt
  organization: University of Coimbra, CIEPQPF—Chemical Engineering Processes and Forest Products Research Center, Department of Chemical Engineering, R. Sílvio Lima, Coimbra 3030-790, Portugal
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Keywords Olive waste
Hydrothermal deposition
Fenton process
Sulfate-based processes
Phenolic acids
Wet impregnation
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Snippet This study explores the physicochemical capacities of solid wastes from olive oil mills (olive stone, OS, and olive pomace, OP), in obtaining catalysts to be...
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SubjectTerms Fenton process
Hydrothermal deposition
Olive waste
Phenolic acids
Sulfate-based processes
Wet impregnation
Title Olive mill waste bio-based catalyst application in advanced oxidation processes for wastewater treatment
URI https://dx.doi.org/10.1016/j.cattod.2024.114618
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