Reduction of Total Phenols, Total Phosphorus and Turbidity by Uncatalytic Oxidation Processes in Cheese Whey Wastewater

Reduction of Total Phenols, Total Phosphorus and Turbidity by Uncatalytic Oxidation Processes in Cheese Whey Wastewater

This study reports the first time that cheese whey wastewater has been treated by the hydrogen peroxide oxidation alone (uncatalytic reaction). This oxidation type was capable of eliminating the total phosphorus content in about 46&#8722;53%, regardless of the dose applied (1&#8722;7 g L<...

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Main Authors: Ana R. Prazeres, Silvana Luz, Flávia Fernandes, Eliana Jerónimo
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:Proceedings
Subjects:
cheese effluents
chemical oxidation
uncatalytic reaction
hydrogen peroxide
treated effluent
Online Access:https://www.mdpi.com/2504-3900/38/1/16
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spelling doaj-d5294edc1f8e4c1b89906c5931d0f8ea2020-11-25T01:38:06ZengMDPI AGProceedings2504-39002020-01-013811610.3390/proceedings2019038016proceedings2019038016Reduction of Total Phenols, Total Phosphorus and Turbidity by Uncatalytic Oxidation Processes in Cheese Whey WastewaterAna R. Prazeres0Silvana Luz1Flávia Fernandes2Eliana Jerónimo3Centro de Biotecnologia Agrícola e Agro-Alimentar do Alentejo (CEBAL), Instituto Politécnico de Beja (IPBeja), 7801-908 Beja, PortugalCentro de Biotecnologia Agrícola e Agro-Alimentar do Alentejo (CEBAL), Instituto Politécnico de Beja (IPBeja), 7801-908 Beja, PortugalCentro de Biotecnologia Agrícola e Agro-Alimentar do Alentejo (CEBAL), Instituto Politécnico de Beja (IPBeja), 7801-908 Beja, PortugalCentro de Biotecnologia Agrícola e Agro-Alimentar do Alentejo (CEBAL), Instituto Politécnico de Beja (IPBeja), 7801-908 Beja, PortugalThis study reports the first time that cheese whey wastewater has been treated by the hydrogen peroxide oxidation alone (uncatalytic reaction). This oxidation type was capable of eliminating the total phosphorus content in about 46&#8722;53%, regardless of the dose applied (1&#8722;7 g L<sup>&#8722;</sup><sup>1</sup>). For total phenols contents, the oxidation system was capable of reducing around 40% under the lowest concentration investigated (1 g L<sup>&#8722;</sup><sup>1</sup>). Similar results were obtained for calcium content with a reduction of 55%. Turbidity was reduced in about 90% when hydrogen peroxide was applied with concentrations of 2, 3 and 7 g L<sup>&#8722;</sup><sup>1</sup>. Characteristic absorbances were reduced in the range of 12&#8722;83% depending on the operating conditions. Chemical oxygen demand (COD) was recalcitrant to hydrogen peroxide oxidation alone (uncatalytic reaction), needing a post-treatment.https://www.mdpi.com/2504-3900/38/1/16cheese effluentschemical oxidationuncatalytic reactionhydrogen peroxidetreated effluent
collection DOAJ
language English
format Article
sources DOAJ
author Ana R. Prazeres
Silvana Luz
Flávia Fernandes
Eliana Jerónimo
spellingShingle Ana R. Prazeres
Silvana Luz
Flávia Fernandes
Eliana Jerónimo
Reduction of Total Phenols, Total Phosphorus and Turbidity by Uncatalytic Oxidation Processes in Cheese Whey Wastewater
Proceedings
cheese effluents
chemical oxidation
uncatalytic reaction
hydrogen peroxide
treated effluent
author_facet Ana R. Prazeres
Silvana Luz
Flávia Fernandes
Eliana Jerónimo
author_sort Ana R. Prazeres
title Reduction of Total Phenols, Total Phosphorus and Turbidity by Uncatalytic Oxidation Processes in Cheese Whey Wastewater
title_short Reduction of Total Phenols, Total Phosphorus and Turbidity by Uncatalytic Oxidation Processes in Cheese Whey Wastewater
title_full Reduction of Total Phenols, Total Phosphorus and Turbidity by Uncatalytic Oxidation Processes in Cheese Whey Wastewater
title_fullStr Reduction of Total Phenols, Total Phosphorus and Turbidity by Uncatalytic Oxidation Processes in Cheese Whey Wastewater
title_full_unstemmed Reduction of Total Phenols, Total Phosphorus and Turbidity by Uncatalytic Oxidation Processes in Cheese Whey Wastewater
title_sort reduction of total phenols, total phosphorus and turbidity by uncatalytic oxidation processes in cheese whey wastewater
publisher MDPI AG
series Proceedings
issn 2504-3900
publishDate 2020-01-01
description This study reports the first time that cheese whey wastewater has been treated by the hydrogen peroxide oxidation alone (uncatalytic reaction). This oxidation type was capable of eliminating the total phosphorus content in about 46&#8722;53%, regardless of the dose applied (1&#8722;7 g L<sup>&#8722;</sup><sup>1</sup>). For total phenols contents, the oxidation system was capable of reducing around 40% under the lowest concentration investigated (1 g L<sup>&#8722;</sup><sup>1</sup>). Similar results were obtained for calcium content with a reduction of 55%. Turbidity was reduced in about 90% when hydrogen peroxide was applied with concentrations of 2, 3 and 7 g L<sup>&#8722;</sup><sup>1</sup>. Characteristic absorbances were reduced in the range of 12&#8722;83% depending on the operating conditions. Chemical oxygen demand (COD) was recalcitrant to hydrogen peroxide oxidation alone (uncatalytic reaction), needing a post-treatment.
topic cheese effluents
chemical oxidation
uncatalytic reaction
hydrogen peroxide
treated effluent
url https://www.mdpi.com/2504-3900/38/1/16
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AT silvanaluz reductionoftotalphenolstotalphosphorusandturbiditybyuncatalyticoxidationprocessesincheesewheywastewater
AT flaviafernandes reductionoftotalphenolstotalphosphorusandturbiditybyuncatalyticoxidationprocessesincheesewheywastewater
AT elianajeronimo reductionoftotalphenolstotalphosphorusandturbiditybyuncatalyticoxidationprocessesincheesewheywastewater
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