Читать книгу Sustainable Practices in the Textile Industry - Группа авторов - Страница 2

1  Cover

2  Title page

3  Copyright

4  Preface

5  Part 1: SUSTAINABLE DYE EXTRACTION AND DYEING TECHNIQUES 1 Extraction and Application of Natural Dyes 1.1 Introduction 1.2 What are Natural Dyes? 1.3 Why Natural Dyes? 1.4 What are Synthetic Dyes? 1.5 Sources of Natural Dyes 1.6 Types of Natural Dyes 1.7 Natural Dyes Need Fixing Agent (Mordants) for Bonding 1.8 Fibers/Fabrics Used for Natural Dyeing 1.9 Extraction of Natural Dyes 1.10 Dyeing Process 1.11 Evaluation of the Dyed Fabric 1.12 Some Special Characteristics of Naturally Dyed Fabric 1.13 Conclusion Acknowledgement References 2 Recent Advances in Non-Aqueous Dyeing Systems 2.1 Introduction 2.2 Supercritical Fluid Dyeing System 2.3 Reverse Micelle Systems 2.4 Solvent Dyeing 2.5 Silicone Non-Aqueous Dyeing 2.6 Conclusion References 3 Structural Coloration of Textile Materials 3.1 Introduction 3.2 Thin-Film Interference References 4 Enzymatic Wet Processing 4.1 Introduction 4.2 Enzymes 4.3 Function of Enzymes 4.4 Classification of Enzymes 4.5 Αn-Amylase Enzyme for Desizing 4.6 Pectinase Enzyme for Scouring 4.7 Protease Enzyme for Wool Anti-Felting 4.8 Cellulase Enzyme for Biopolishing and Biostoning 4.9 Hairiness Removal Mechanism 4.10 Enzyme Decolorization of Textile Effluent 4.11 Enzymes for Increasing Dyeability of Different Fibers 4.12 Conclusion References

6  Part 2: SUSTAINABLE FUNCTIONAL FINISHING OF VARIOUS TEXTILE MATERIALS 5 Coating Textiles: Towards Sustainable Processes 5.1 Introduction 5.2 Most Used Polymers for Coating Textiles 5.3 Traditional Coating Methods 5.4 Environmental Friendly Polymers 5.5 Sustainable Coating Technologies 5.6 Conclusion References 6 A Review on Hydrophobicity and Fabricating Hydrophobic Surfaces on the Textiles 6.1 Introduction 6.2 Self-Cleaning Surfaces 6.3 Applications of Hydrophobic Surfaces 6.4 Basic Theories: Modeling of Contact Angle 6.5 Techniques to Make Super-Hydrophobic Surfaces 6.6 Methods of Applying Hydrophobic Coating on Textiles 6.7 Contact Angles (CA) Measurement 6.8 Research Records on Hydrophobic Surface Production 6.9 Conclusion References 7 UV Protection: Historical Perspectives and State-of-the-Art Achievements 7.1 Introduction 7.2 Fundamentals Regarding UV Protection of Textile Fabrics 7.3 UV Stabilizers Beginnings and Initial Development 7.4 Conclusion References 8 Synthetic and Natural UV Protective Agents for Textile Finishing 8.1 Introduction 8.2 Ultraviolet Radiation (UVR) 8.3 Importance of Ultraviolet Protective Finish 8.4 Methods of Blocking Ultraviolet Rays 8.5 Ultraviolet Protection Factor Measurement System 8.6 Clothing Factors Affecting Ultraviolet Protection Factor 8.7 Mechanisms of UV Protection 8.8 Types of Ultraviolet Absorbers 8.9 Commercial Ultraviolet Protective Clothing 8.10 Nanoparticle Coatings for Ultraviolet Protective Textiles 8.11 Durability of Ultraviolet Protective Finish 8.12 Conclusion References 9 Sustainable Orientation of Textile Companies 9.1 Introduction 9.2 Textile Industry—Environmental, Social and Economic Issues 9.3 Circular Economy 9.4 Sustainability Circles 9.5 Circularity in the Supply Chain 9.6 Consumer Behavior of Sustainable Textile Products 9.7 Decision to Purchase Sustainable Textile Products 9.8 Policies and Strategies Used in the Sustainable Textile Industry 9.9 Conclusions References

7  Part 3: SUSTAINABLE WASTEWATER REMEDIATION 10 Sustainable Application of Ionic Flocculation Method for Textile Effluent Treatment 10.1 Introduction 10.2 Conventional Methods for Degradation of Textile Effluents 10.3 Surfactants 10.4 Adsorptive Micellar Flocculation (AMF) 10.5 Mechanism 10.6 Choice of Flocculant 10.7 Analysis and Calculations 10.8 Optimization of Conditions for Better Removal of Dye Using AMF 10.9 Potential Advantages of AMF 10.10 Application to Wastewaters 10.11 Conclusion 10.12 Future Prospective References 11 Remediation of Textile Wastewater by Ozonation 11.1 Introduction 11.2 Sources of Wastewater 11.3 Ozonation Remediation for Textile Water 11.4 Impact of Various Techniques in Combination Ozonation Process for Treatment of Textile Wastewater 11.5 Degradation of Dyes via Ozonation 11.6 Conclusion References 12 Design of a New Cold Atmospheric Plasma Reactor Based on Dielelectric Barrier Discharge for the Treatment and Recovery of Textile Dyeing Wastewater: Profoks/CAP Reactor 12.1 Introduction 12.2 Advanced Oxidation Processes (AOP) in Wastewater Treatment 12.3 Profoks/CAP Wastewater Treatment and Water Recovery System 12.4 Conclusion References 13 Nanotechnology and its Application in Wastewater Treatment 13.1 Introduction 13.2 Nanotechnology 13.3 Conclusion References

8  Index

9  Also of Interest

10  End User License Agreement