Polymer Technology in Dye-containing Wastewater: Volume 2 (Sustainable Textiles: Production, Processing, Manufacturing & Chemistry)

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Sustainable Textiles: Production, Processing, Manufacturing & Chemistry Series
Polymer Technology in Dye-containing Wastewater: Volume 2
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Contents
About the Editors
Poly(Vinyl Alcohol) (PVA)-Based Treatment Technologies in the Remediation of Dye-Containing Textile Wastewater
	1 Introduction
	2 Polyvinyl Alcohol (PVA): Structure and Properties
	3 PVA-Based Materials
	4 Interaction Mechanisms Between Dyes and PVA-Based Materials
	5 Wastewater Treatment Technologies
	6 PVA-Based Materials for Dyes Removal Application
		6.1 Composites Based on PVA
		6.2 PVA-Based Gel Materials
		6.3 Fibers Based on PVA
		6.4 PVA-Based Membranes
		6.5 PVA-Based Films
	7 Conclusion
	References
Polymeric Membranes Nanocomposites as Effective Strategy for Dye Removal
	1 Introduction
	2 Polymeric Membranes
	3 Metal and Metal Oxide-Based Polymeric Membranes
		3.1 Silver NP
		3.2 TiO2 NPs
		3.3 ZnO NPs
		3.4 SiO2 NPs
	4 Clay-Based Polymeric Membranes
	5 Hydrogels, Xerogels and Aerogels-Based Membranes
		5.1 Hydrogels-Based Polymeric Membranes
		5.2 Xerogels-Based Polymers
		5.3 Aerogel-Based Polymeric Membranes
	6 Conclusion
	References
Polymer Membrane in Textile Wastewater
	1 Introduction
	2 Textile Wastewater
		2.1 Characteristics of Textile Wastewater
		2.2 Nature of Textile Effluents
	3 Various Technologies for the Treatment of Water Waste in Textile
		3.1 Physical Methods for Treatment of Wastewater in Textile
	4 Membrane Fabrication Methods
		4.1 Polymeric Membrane Filtration
	5 Conclusion and Future Scope
	References
Dye Removal Using Polymer Composites as Adsorbents
	1 Introduction
	2 Various Types of Polymer Composites in Dye Removal
	3 Polymer Composites
	4 Polymer-Carbon Composites
	5 Polymer-Clay Composites
	6 Fiber-Reinforced Polymer Composites
	7 Dye Removal Properties for the Different Polymer Composites Used in the Study
	8 Recent Works of Dye Removal Using Polymer Composites
	9 Future Perspectives
	10 Conclusion
	References
Polymer‐Derived Ceramic Adsorbent for Removal of Dyes from Water
	1 Introduction
	2 Polymer-Derived Ceramics
		2.1 Preceramic Polymers
	3 Preparation of PDCs
		3.1 Conversion of Molecular Precursors to Preceramic Polymers
		3.2 Conversion of Preceramic Polymers to Polymer-Derived Ceramics
	4 PDCs for Removal of Dyes From Textile Wastewater
	5 Conclusion and Future Outlook
	References
Polymeric Hydrogels for Dye Adsorption
	1 Introduction
	2 Hydrogels
		2.1 Techniques Used for Hydrogels Characterization
	3 Natural Polysaccharides-Based Hydrogels
		3.1 Chitosan and Chitin-Based Hydrogels
		3.2 Cellulose-Based Hydrogels
		3.3 Starch-Based Hydrogels
		3.4 Sodium Alginate-Based Hydrogels
		3.5 Xanthan-Based Hydrogels
		3.6 Miscellaneous Natural Polysaccharides-Based Hydrogels
	4 Synthetic Polymers-Based Hydrogels
	5 The Influence of Different Parameters on Sorption Ability
		5.1 Contact Time
		5.2 Dye Nature
		5.3 Initial Dye Concentration
		5.4 Temperature
		5.5 pH
	6 Adsorption Kinetics
		6.1 Pseudo-First-Order Kinetic Model
		6.2 Pseudo-Second-Order Kinetic Model
		6.3 Intraparticle Diffusion Kinetic Model
	7 Adsorption Isotherms
		7.1 Langmuir Model
		7.2 Freundlich Model
		7.3 Dubinin–Radushkevich Model
	8 Recycling of the Hydrogel-Based Sorbents
	9 Conclusions
	References
Bacterial Extracellular Polymeric Substances for Degradation of Textile Dyes
	1 Introduction
	2 Extracellular Polymeric Substances
	3 Bacterial Extracellular Polymeric Substances
	4 Characteristics of Bacterial Extracellular Polymeric Substances
	5 Chemical Composition of Extracellular Polymeric Substances
		5.1 Carbohydrates
		5.2 Protein
		5.3 Extracellular DNA
		5.4 Lipids and Surfactant
		5.5 Humic Substances
	6 Mechanism of Degradation
	7 Summary and Future Perspectives
	References
Polymer-Derived Electrospun Ceramic Nanofibers Adsorbents for Textile Wastewater Treatment
	1 Introduction
	2 Outline of the Electrospinning Process
		2.1 Nanofiber Generation by Electrospinning Process
		2.2 Electrospun Ceramic Nanofiber
	3 Adsorptive Application of Composite Nanofiber for Wastewater Treatment
		3.1 Cerium Oxide NFs as Adsorbent
		3.2 Iron Oxide NFs as Adsorbent
		3.3 Titanium Dioxide Nanofiber as Adsorbent
		3.4 Alumina NFs as Adsorbent
		3.5 Ceramic-Composite NFs/nanocomposite
	4 Conclusion and Future Prospects
	References
Natural Biodegradable Polymeric Bio-adsorbents for Textile Wastewater
	1 Introduction
	2 Textile Dyes: Classification and Class
	3 Toxicity of Textile Dye
	4 Biodegradable Natural Polymers
	5 Applications of Biodegradable Polymeric Biosorbent in Textile Dye Removal
		5.1 Starch-Based Polymeric Composites
		5.2 Cellulose-Based Polymeric Composites
		5.3 Chitin and Chitosan-Based Polymeric Composites
		5.4 Alginate Based Polymeric Composites
	6 Conclusions and Future Perspectives
	References
Applications of Inorganic Polymers in Textile Wastewater Treatment
	1 Introduction
	2 Synthetic Techniques of Inorganic Polymers
	3 Characterization of Inorganic Polymers
	4 Some Examples with Applications
		4.1 Ti3+ Base Polymer
		4.2 CNT/Cdot/FA/TiO2 Polymer
		4.3 Bauxite Residues (BR) Polymer
		4.4 PAFC-Starch-G-Polymer
		4.5 Fe/Zr-Pillared-Clinoptilolite (Nano-Fe/Zr PC)
		4.6 Microspheres Inorganic Polymer
		4.7 Polymeric Ferric Silicate Aluminum (PAFSi)
	5 Some Other Examples
	6 Conclusion
	References