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Optimization of textile effluent bacterial treatment and improvement of the process efficiency through SPB1 biosurfactant addition
Optimization of textile effluent bacterial treatment and improvement of the process efficiency through SPB1 biosurfactant addition
by Bouassida, Mouna , Ghribi, Dhouha , Mnif, Inès , Ayed, Lamya
in Bacteria / Bacteria - metabolism / biodecolorization / Biodegradation / Biodegradation, Environmental / Biosurfactants / box–bhenken / Chemical oxygen demand / Citrobacter / cod decrease / Color removal / Coloring Agents - metabolism / Consortia / Diabetes / Dyes / Efficiency / Effluent treatment / Effluents / Enzymatic activity / Enzyme activity / Fatty acids / Heavy metals / Microbiological strains / Optical density / Optimization / Organic matter / Oxygen requirement / Peptides / pH effects / Physicochemical analysis / Phytotoxicity / response surface methodology / Surface-Active Agents - chemistry / Surfactants / textile effluent / Textile Industry / Textile industry wastes / Textile industry wastewaters / Textiles / Toxicity / Variance analysis / Wastewater treatment
2023
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Optimization of textile effluent bacterial treatment and improvement of the process efficiency through SPB1 biosurfactant addition
by Bouassida, Mouna , Ghribi, Dhouha , Mnif, Inès , Ayed, Lamya
in Bacteria / Bacteria - metabolism / biodecolorization / Biodegradation / Biodegradation, Environmental / Biosurfactants / box–bhenken / Chemical oxygen demand / Citrobacter / cod decrease / Color removal / Coloring Agents - metabolism / Consortia / Diabetes / Dyes / Efficiency / Effluent treatment / Effluents / Enzymatic activity / Enzyme activity / Fatty acids / Heavy metals / Microbiological strains / Optical density / Optimization / Organic matter / Oxygen requirement / Peptides / pH effects / Physicochemical analysis / Phytotoxicity / response surface methodology / Surface-Active Agents - chemistry / Surfactants / textile effluent / Textile Industry / Textile industry wastes / Textile industry wastewaters / Textiles / Toxicity / Variance analysis / Wastewater treatment
2023
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Optimization of textile effluent bacterial treatment and improvement of the process efficiency through SPB1 biosurfactant addition
Optimization of textile effluent bacterial treatment and improvement of the process efficiency through SPB1 biosurfactant addition
by Bouassida, Mouna , Ghribi, Dhouha , Mnif, Inès , Ayed, Lamya
in Bacteria / Bacteria - metabolism / biodecolorization / Biodegradation / Biodegradation, Environmental / Biosurfactants / box–bhenken / Chemical oxygen demand / Citrobacter / cod decrease / Color removal / Coloring Agents - metabolism / Consortia / Diabetes / Dyes / Efficiency / Effluent treatment / Effluents / Enzymatic activity / Enzyme activity / Fatty acids / Heavy metals / Microbiological strains / Optical density / Optimization / Organic matter / Oxygen requirement / Peptides / pH effects / Physicochemical analysis / Phytotoxicity / response surface methodology / Surface-Active Agents - chemistry / Surfactants / textile effluent / Textile Industry / Textile industry wastes / Textile industry wastewaters / Textiles / Toxicity / Variance analysis / Wastewater treatment
2023

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Optimization of textile effluent bacterial treatment and improvement of the process efficiency through SPB1 biosurfactant addition
Optimization of textile effluent bacterial treatment and improvement of the process efficiency through SPB1 biosurfactant addition
Journal Article

Optimization of textile effluent bacterial treatment and improvement of the process efficiency through SPB1 biosurfactant addition

Bouassida, Mouna,
Ghribi, Dhouha,
Mnif, Inès,
Ayed, Lamya
2023
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Overview
The current work aims to optimize biological textile effluent treatment through the use of newly selected bacterial consortia composed of two strains: Citrobacter sedlakii RI11 and Aeromonas veronii GRI. We assessed the effect of SPB1 biosurfactant addition on color removal (CR). The process was optimized by a Box–Bhenken by examining the effect of pH, consortia density and biosurfactant value on treatment efficiency. Firstly, physicochemical analyses of the studied effluent revealed an alkaline pH along with a high content of suspended materials and large amounts of organic matter. Optimal CR and a chemical oxygen demand abatement of about 94 and 86% were obtained when treating the textile effluent at pH 5 with a total optical density of 0.4 and by incorporating 0.01% SPB1 biosurfactant. Additionally, an abolishment of phytotoxicity was registered after treatment optimization. The evaluations of the action mode of both selected bacteria during textile effluent treatment suggested the occurrence of biodegradation phenomena of dyes through enzymatic activities.
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Publisher
IWA Publishing
Subject

Bacteria

/ Bacteria - metabolism

/ biodecolorization

/ Biodegradation

/ Biodegradation, Environmental

/ Biosurfactants

/ box–bhenken

/ Chemical oxygen demand

/ Citrobacter

/ cod decrease

/ Color removal

/ Coloring Agents - metabolism

/ Consortia

/ Diabetes

/ Dyes

/ Efficiency

/ Effluent treatment

/ Effluents

/ Enzymatic activity

/ Enzyme activity

/ Fatty acids

/ Heavy metals

/ Microbiological strains

/ Optical density

/ Optimization

/ Organic matter

/ Oxygen requirement

/ Peptides

/ pH effects

/ Physicochemical analysis

/ Phytotoxicity

/ response surface methodology

/ Surface-Active Agents - chemistry

/ Surfactants

/ textile effluent

/ Textile Industry

/ Textile industry wastes

/ Textile industry wastewaters

/ Textiles

/ Toxicity

/ Variance analysis

/ Wastewater treatment

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