Nanotechnology-assisted recycling of textile waste : sustainable tools for textiles

Discover how innovative nanotechnology can turn waste into opportunity, offering insights and strategies to create a greener, more eco-friendly textile industry. This book investigates nanotechnology-assisted sustainable solutions and their potential to transform waste into opportunity by fostering...

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Bibliographic Details
Other Authors Sharma, Prashansa (Editor), Sahay, Shilpi Shree (Editor)
Format Electronic eBook
LanguageEnglish
Published Hoboken, NJ : Beverly, MA : John Wiley & Sons, Inc. ; Scrivener Publishing LLC, 2025.
Subjects
Textile fabrics > Recycling.
Textile fibers > Recycling.
elektronické knihy
electronic books
Online AccessFull text
ISBN9781394175017
9781394175000
9781394174997
9781394174492
Physical Description1 online zdroj (528 stran)

Cover

Table of Contents:
  • Part I: Overview of Textile Waste and Management
  • 1 Overview of Textile Waste 3 Amisha Singh, Shilpi Shree Sahay and Prashansa Sharma
  • 1.1 Introduction
  • 1.2 Textile Waste
  • 1.3 Classification of Textile Waste
  • 1.4 Pre-Consumer Textile Waste
  • 1.5 Post-Consumer Textile Waste
  • 1.6 Soft and Hard Waste
  • 1.7 Major Reasons for Textile Waste Production
  • 1.8 Textile Waste--Associated Environmental Hazards
  • 1.9 Future Prospect
  • 1.10 Conclusion
  • 2 Challenges in Handling and Systematically Organizing Textile Waste 29 A.K. Choudhary and Prashant Kumar
  • 2.1 Introduction
  • 2.2 Types of Textile Waste
  • 2.3 Textile Waste Management
  • 2.4 Major Challenges in Managing Textile Waste
  • 2.5 Challenges in Textile Recycling (Solid Waste)
  • 2.6 Challenges in Different Methods for Recovering Waste from the Textile Industry
  • 3 Overview of Textile Recycling (Solid Waste) 59 Debarati Maity, Akash Borkar, Suvojit Ghosh and Anagha S. Sabnis
  • 3.1 Introduction
  • 3.2 Overview of Textile Recycling
  • 3.3 Circular Economy
  • 3.4 Waste Management
  • 3.5 Applications of Recycled Fabrics
  • 3.6 Challenges in Fabric Recycling
  • 3.7 Technologies and Innovation Involved in Textile Recycling
  • 3.8 Conclusions
  • 4 Nanoparticle-Facilitated Treatment of Wastewater Containing Textile Dye 97 Anirban Roy and Sampa Chakrabarti
  • 4.1 Introduction
  • 4.2 Aim, Objectives, and Scope
  • 4.3 Nanoparticle-Based Adsorption Processes for Treatment of Textile Wastewater
  • 4.4 Nano-Photocatalysts and Their Application for Treatment of Textile Wastewater
  • 4.5 Membrane Processes Involving Nanotechnology for Treatment of Textile Wastewater
  • 4.6 Bioremediation Involving Nanomaterials
  • 4.7 Ecotoxicological Impact of Using Nanoparticles for Textile Wastewater Treatment
  • 4.8 Real-Life Textile Wastewater Treatment Using Nanoparticles
  • 4.9 Conclusion
  • 5 Innovative Approaches to Recover Waste in the Textile Sector 129 Dipak Kumar Sahu and Goutam Rath
  • 5.1 Introduction
  • 5.2 Innovative Approaches for Solid Waste Management
  • 5.3 Case Studies of Successful Innovations
  • 5.4 Innovative Approaches for Liquid Textile Waste Management
  • 5.5 Nanofibers for Dye Separation
  • 5.6 Waste Cotton Recycling
  • 5.7 Mixed Solid Waste Recycling
  • 5.8 Challenges and Prospects
  • 5.9 Conclusion
  • Part II: Comprehensive, Sustainable and Productive Recycling of Waste Using Nanotechnology
  • 6 Role of Nanotechnology in Recycled Textiles 173 Muhammad Jahanzaib, Shambhavi Sharma and Duckshin Park
  • 6.1 Introduction
  • 6.2 Textile Waste Reuse or Recycle
  • 6.3 Challenges in Textile Recycling
  • 6.4 Nanotechnology in Textiles
  • 6.5 The Circular Economy and Nanotechnology: The Case of Recycled Textile Waste
  • 6.6 Environmental Hazards Associated with Nanomaterials in the Textile Industry
  • 6.7 Nanomaterials From Textile Industry and Health Effects
  • 6.8 Industrial Applications of Recycled Textiles
  • 6.9 Conclusion
  • 7 Contribution of Nanotechnology in Shaping Sustainable Textile Design and Future Fashion Trends 207 Shilpi Shree Sahay, Prashansa Sharma and Amisha Singh
  • 7.1 Introduction
  • 7.2 Sustainable Design Principles
  • 7.3 Promoting Conscious Fashion Choices
  • 7.4 Sustainable Practices in Textile Production
  • 7.5 Role of Technological Advancements in Achieving Sustainability
  • 7.6 Technological Innovations in Material Production
  • 7.7 Nanotechnology in Fabric Production
  • 7.8 Innovations in Nanotechnology Transforming Textile Sector
  • 7.9 Nanotextile Market Trend
  • 7.10 Emerging Technologies and Future Trend
  • 7.11 Conclusion
  • 8 Understanding and Characterization of Functional Properties of Novel Recycled Nano-Textile 235 Chet Ram Meena
  • 8.1 Introduction
  • 8.2 Current and Future Trends in Novel Nano-Textiles
  • 8.3 Nanotechnology (NT)
  • 8.4 Nanomaterials (NMs)
  • 8.5 Synthesis of Nanomaterials (NMs)
  • 8.6 Characterization of Nanomaterials
  • 8.7 Applications of Nanotechnology
  • 8.8 Novel Nano-Textile
  • 8.9 Environmental and Health Concerns Connected with Nanomaterials
  • 8.10 Overpowering the Threats Connected with Nanomaterials
  • 8.11 Conclusion
  • 9 Future Perspective of Nanotechnology in Relation to Textile Applications Using Textile Waste 265 Ruchi Kholiya, Shefali Massey and Mansi Hans
  • 9.1 Introduction
  • 9.2 Nanotechnology and Its Emergence
  • 9.3 What is Textile Waste?
  • 9.4 Potential of Nanotechnology in the Utilization of Textile Waste
  • 9.5 Environmental, Health, and Safety Concerns of Nanotechnology
  • 9.6 Conclusion
  • Part III: Advanced Application of Recycled and Nano-Assisted Novel Textile Generated Through Waste
  • 10 Utilizing Textile Waste in the Production of Nanotechnology-Based Sports Textiles 287 Janmay Singh Hada
  • 10.1 Introduction
  • 10.2 Integration of Textile Waste and Nanotechnology
  • 10.3 Sport Textiles
  • 10.4 Nanotechnology and Nanomaterials in Sport Textiles
  • 10.5 Textile Waste
  • 10.6 Health and Safety Measures
  • 10.7 Present Scenario
  • 10.8 Composites
  • 10.9 Nanotechnology is Applied to Enable Self-Cleaning Properties in Textile Waste
  • 10.10 Innovations
  • 10.11 Conclusion
  • 11 Functional Textiles from Agro-Industrial Waste 311 Shubham Joshi, Neelu Kambo and Saurabh Dubey
  • 11.1 Introduction
  • 11.2 Socio-Economic Perspective
  • 11.3 Agro-Industrial Waste
  • 11.4 Extraction and Formulation of Natural Compounds
  • 11.5 Functional Properties of Agro-Industrial Waste-Based Formulations
  • 11.6 Future and Challenges
  • 11.7 Conclusion
  • 12 Potential Application of Recycled Waste in Technical Textiles 351 Blesson Tom Mathew, Advitiya Kumar and Archana Samanta
  • 12.1 Introduction
  • 12.2 Overview of Technical Textiles
  • 12.3 Textile Waste: Sources and Challenges
  • 12.4 Recycling Technologies
  • 12.5 Benefits of Using Recycled Waste in Technical Textiles
  • 12.6 Application of Recycled Waste in Technical Textiles
  • 12.7 Environmental and Economic Impact
  • 12.8 Conclusion
  • 13 Nano-Engineered Protective Textiles Using Recycled Wastes 379 Rupayan Roy and Pravin P. Chavan
  • 13.1 Introduction
  • 13.2 Recycled Waste Materials for Protective Textiles
  • 13.3 Nano-Engineering in Protective Textiles
  • 13.4 Characterization of Nano-Engineered Protective Textiles Using Recycled Wastes
  • 13.5 Applications of Nano-Engineered Protective Textiles Using Recycled Wastes
  • 13.6 Future Prospects and Challenges
  • 14 Advanced Application of Recycled Textile Generated from Waste in Military Application Using Nanotechnology 403 Rohit Rai and Prodyut Dhar
  • 14.1 Introduction
  • 14.2 Types and Sources of Waste
  • 14.3 Fiber Waste Recycling Procedures
  • 14.4 Approaches in Fiber Recycling
  • 14.5 Textile Modification with Nanotechnology for Military Applications
  • 14.6 Defense Applications of Nanotechnology-Based Textiles
  • 14.7 Utilization of Sustainable Nanotextiles for Military Applications
  • 14.8 Conclusions
  • Part IV: Quality Control and Regulatory Aspects of Advanced Nano Textile Material with Respect to Industries
  • 15 Global Legislation, Schemes and Standards to Control Environmental Concern for Textile-Generated Waste 437 Shambhavi Sharma, Muhammad Jahanzaib, Jooyeon Lee and Duckshin Park
  • 15.1 Introduction
  • 15.2 Textile Industry and Environmental Impact
  • 15.3 Global Legislation for Textile Waste Management
  • 15.4 International Schemes and Initiatives
  • 15.5 Standards and Certifications
  • 15.6 Challenges and Limitations
  • 15.7 Benefits and Impacts of Legislation and Standards
  • 15.8 Case Studies
  • 15.9 Future Prospects and Recommendations
  • 15.10 Conclusion
  • 16 Prevailing Eco-Parameters and Protocols for Nanotechnology in the Textile Industry 461 Sanduru Sai Keerthana, Vivek Dave and Prashansa Sharma
  • 16.1 Introduction
  • 16.2 Environmental Implications of Nanotechnology
  • 16.3 Industrial Use of Nanotechnology in Textiles
  • 16.4 A Brief Note on Textile Recycling
  • 16.5 An Overview of the Industrial Process in Textile Industry
  • 16.6 Textile Waste and Its Environmental Problems
  • 16.7 Pollution Output
  • 16.8 Restricted Substances
  • 16.9 Protocols for Industrial Use of Nanotechnology
  • 16.10 Nanotechnology-Based Textiles and Nano-Safety Concerns
  • 16.11 Regulation Methods for Nanomaterials
  • 16.12 Principles for the Safe Handling of Nanomaterials
  • 16.13 Risk Management and Assurance in Quality for Nano-Coated Textile Products
  • 16.14 Good Practices and Test Guidelines
  • 16.15 Applications for Na.
  • notextiles
  • 16.16 Conclusion
  • References
  • Index.

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