Biological approaches in dye-containing wastewater. Volume 2 / Ali Khadir and Subramanian Senthilkannan Muthu, editors.

Format:

• Book

Contributor:

• Khadir, Ali, editor.
• Muthu, Subramanian Senthilkannan, editor.

Series:

• Sustainable Textiles: Production, Processing, Manufacturing and Chemistry

Language:

English

Subjects (All):

• Sewage--Purification--Biological treatment.
• Sewage--Purification--Color removal.

Physical Description:

1 online resource (238 pages)

Edition:

1st ed.

Place of Publication:

Singapore : Springer, [2022]

Summary:

This Volume 2 contains essential contributions highlighting the use of biotechnology in dye removal.It begins with an overview of activated sludge process for dye removal along with its limitation is carried out and describes the fundamental concepts of dye-containing textile wastewater treatments, particularly microbial and enzymatic approaches.

Contents:

• Intro
• Contents
• About the Editors
• Dye Removal Using Activated Sludge
• 1 Introduction
• 2 Dye Degradation by Adsorption
• 2.1 Adsorption of Dye onto Sludge-Based Activated Carbon
• 2.2 Adsorption of Dye onto Dried Activated Sludge
• 3 Aerobic Granular Technology
• 4 Sequential Chemical and Activated Sludge Process
• 5 Dye Treatment Using Fungus
• 6 Dye Treatment Using Biofloculant Isolated from Activated Sludge
• 7 Activated Sludge Parameters
• 8 Conclusion
• References
• Fundamental Concepts of Dye-Containing Textile Wastewater Treatments: Microbial and Enzymatic Approaches
• 2 Chemical Structure of Dyes
• 2.1 Global Dye Market
• 2.2 Classification of Textile Dyes
• 3 Azo-Based Textile Dyes
• 3.1 Global Azo Dye Market
• 3.2 Effects of Azo Dyes on Environment
• 4 Textile Wastewater Conventional Treatments
• 4.1 Primary Treatment
• 4.2 Secondary Treatment
• 4.3 Tertiary Treatment
• 5 Aerobic and Anaerobic Microbial Degradation of Dyes: Bacterial, Fungal, and Microalgae
• 5.1 Aerobic Microbial Degradation of Dyes
• 5.2 Anaerobic Microbial Degradation of Dyes
• 5.3 Sequential Aerobic-Anaerobic Treatment
• 5.4 Phycoremediation
• 6 Enzymatic Degradation of Dyes
• 6.1 Laccases
• 6.2 Peroxidases
• 6.3 Azoreductase
• 7 New Trends on Microbial and Enzyme Degradation of Dye-Containing Textile Wastewater Treatment
• 7.1 Dye Adsorption
• 7.2 Genetically Modified Organisms (GMOs)
• 7.3 Combined Treatments Systems
• 7.4 Biofilms
• 7.5 Dye Industry Waste and Resource Recovery Strategy
• 7.6 Machine Learning
• Role of Microbial Biofilms in Dye Degradation During Textile Wastewater Treatment
• 2 Characteristics of Dye
• 2.1 Classification Based on Their Chemical Structure.
• 2.2 Classification Based on Affinity to Varying Substrates Their Applicability
• 3 Dyes: Impact on Environment
• 4 Understanding Biofilm Formation
• 4.1 Biofilm Potential in Dye Removal
• 4.2 Biofilm-Based Processes in Dye Removal
• 4.3 Trending Approaches in Dye Removal via Biofilms
• 5 Conclusion
• Biotransformation of Anthraquinone Dye by Microbial Enzymes
• 2 Anthraquinone Dye
• 3 Remediation Technique for Dyes Contamination
• 4 Biological Methods
• 4.1 Degradation of Dyes by Fungal Strains
• 4.2 Role of Bacterial Strains
• 4.3 Role of Yeast and Filamentous Fungi
• 4.4 Role of Microbial Enzymes
• Microalgae-Based Remediation Approaches in Textile Dye Removal
• 2 Azo Dyes
• 3 Use of Microalgae in the Removal of Azo Dyes from Textile Effluents
• 3.1 Processes for the Treatment of Textile Effluents by Microalgae
• 3.2 Use of the Microalgal Biomass Generated in the Treatment of Textile Effluents
• 4 Concluding Remarks
• Plant-Microbe-Based Remediation Approaches in Dye Removal
• 2 Dyes and Its Impact on Environment and Human Health
• 3 Different Approaches for the Remediation of Dyes from the Industrial Wastewater
• 3.1 Physical Methods
• 3.2 Chemical Methods
• 3.3 Biological Methods
• 4 Microbial Bioremediation of Dyes
• 5 Phytoremediation
• 6 Mechanism of Dye Degradation by Using Plant-Microbe Synergism Approach
• 7 Plant-Microbe Synergism Approach: Selection of Microbe
• 8 Analysis of the Metabolites and Degradation Products of Plant-Microbe Synergism
• 9 Toxicity Evaluation of Metabolites and Dye Degraded Products Formed After Plant-Microbe Synergism
• 10 Conclusion
• Role of Fungi in the Removal of Synthetic Dyes from Textile Industry Effluents
• 1 Introduction.
• 2 Textile Industries-Effluent Waste Waters-Synthetic Dyes-Environmental and Human Health Issues
• 3 Available Remediation Methods to Treat Textile Effluents
• 4 Role of Microorganisms in the Bioremediation of Textile Effluents
• 4.1 Degradation of Dyes by Bacteria
• 4.2 Degradation of Dyes by Algae
• 4.3 Degradation of Dyes by Yeasts
• 4.4 Degradation of Dyes by Fungi
• 5 Role of Fungi in the Removal of Synthetic Dyes from Textile Industry Effluents
• 6 Conclusion
• 7 Future Directions
• The Applicability of the Microalgae-Based Systems in Textile Dye Industrial Wastewater
• 2 Textiles Wastewater: Origin and Composition
• 3 Conventional Treatment Methodologies and Their Limitations
• 3.2 Physico-Chemical Methods
• 4 Bioremediation of Textile Wastewater by Microalgae
• 4.1 Phycoremediation of Textile Wastewater Using Microalgae
• 5 Biomass Production: The Main Applicability of the Biomass Microalgae After Wastewater Treatment
• 6 Conclusion and Future Perspectives
• Potential for Constructed Wetlands Aimed at Sustainable Wastewater Treatment, Reuse, and Disposal in Dyestuff and Textile Sectors
• 1 The Context of Dyestuff and Textile Sectors in India
• 1.1 Environmental Challenges Faced in Dyestuffs and Textile Sector
• 1.2 The Scope and Specific Objectives
• 2 The Genesis of Pollution in Dyestuff &
• Textile Sectors
• 2.1 Pollution Causing Steps in Production of Dyestuffs
• 2.2 Pollution Causing Steps in Textile Processing
• 3 Shortcomings of Conventional Treatment Strategies for Removal of Dyes in Wastewater Treatment
• 4 The Horizon of Eco-centric Treatment Technologies
• 4.1 Significance of Natural Treatment Systems for Sustainable Wastewater Treatment
• 4.2 Use of Engineered CWs for Treatment of Domestic Wastewaters.
• 4.3 Kinetics of Removal of COD, BOD and Nutrients in CWs
• 5 Significance of CWs for Treatment of Industrial Wastewaters
• 5.1 Removal of Industrial Pollutants Using Constructed Wetlands
• 5.2 Case Studies on Co-disposal of Industrial and Domestic Wastewaters
• 6 Use of Constructed Wetlands in Dye Wastewater Management
• 6.1 Constructed Wetlands for Secondary Treatment
• 6.2 Constructed Wetlands for Tertiary Treatment
• 7 Integration of Constructed Wetlands in Dye Wastewater Management
• 7.1 Significance of Wastewater Segregation in Textile Sector
• 7.2 Potential for Using Constructed Wetlands for Treating Segregated Streams
• 7.3 Advanced Treatment Technologies for Concentrated Fractions of Dye Wastewaters
• 7.4 A Conceptual Framework for Preventive Environmental Management
• 8 Summary and Conclusions
• References.

Notes:

• Description based on print version record.
• Description based on publisher supplied metadata and other sources.

Other Format:

Print version: Khadir, Ali Biological Approaches in Dye-Containing Wastewater

ISBN:

981-19-0526-6

OCLC:

1306525834