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 innovative designs and in-depth knowledge of sustainable waste management and nanotechnology applications. Divided into four comprehensive parts, comprising 16 chapters, Nanotechnology Assisted Recycling of Textile Waste, provides insights into the potential of nanotechnology in revolutionizing…mehr
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 innovative designs and in-depth knowledge of sustainable waste management and nanotechnology applications. Divided into four comprehensive parts, comprising 16 chapters, Nanotechnology Assisted Recycling of Textile Waste, provides insights into the potential of nanotechnology in revolutionizing textile recycling and shaping the future of sustainable textiles. Part I sets the stage with an insightful overview of textile waste and management, exploring the conceptual dimensions and challenges in handling and organizing textile waste. It also describes the innovative realm of textile recycling. In Part II, the spotlight shines on comprehensive, sustainable, and productive recycling of waste using nanotechnology. Here, readers are invited to explore the transformative contributions of nanotechnology in shaping sustainable textile design and characterizing functional properties of novel recycled nano-textiles. Future perspectives of nanotechnology in textile applications, particularly concerning waste recycling, are also examined. Part III explores deeper into the advanced application of recycled and nano-assisted novel textiles generated through waste. From sports textiles to technical textiles, this section explores the diverse applications of recycled waste, bolstered by nano-engineered innovations. Finally, Part IV addresses the critical aspects of quality control and regulatory compliance in the realm of advanced nano-textile materials through an exploration of global legislation, schemes, and standards. Readers will find in this book: * research findings and innovative approaches to cope with the challenges and issues of textile waste; * systematic and scientific knowledge on textile waste recycling techniques using nanotechnology; * knowledge of complex scientific research findings in a simple and understandable form; * comprehensive coverage of a broad range of topics, including sustainable textile waste management. Audience The book will be read by a range of researchers, engineers and students in technical textiles, textile technology and engineering, textile chemistry, fiber science, textile processing technologies and manufacturing, fashion and apparel technology, materials science, environmental science. This book will help designers and clothing manufacturers, and all those in textile and environmental domains, who are engaged in waste management.
Prashansa Sharma, PhD, is an assistant professor in the Department of Home Science, MMV, Banaras Hindu University, Varanasi, Uttar Pradesh, India. With over ten years of experience in both teaching and research, her areas of expertise encompass nano-textiles, green synthesis, and the application of nanotechnology in textiles. She has contributed significantly to her field with numerous research papers, books, and book chapters. Shilpi Shree Sahay works in the Department of Home Science, Banaras Hindu University, Varanasi, Uttar Pradesh, India. She specializes in clothing and textiles, focusing on nano-textile science and eco-friendly textile finishing. With a master's degree from BHU, her research interests include developing nanoparticles and enhancing textile functionality.
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Preface xxi Part I: Overview of Textile Waste and Management 1 1 Overview of Textile Waste 3 Amisha Singh, Shilpi Shree Sahay and Prashansa Sharma 1.1 Introduction 4 1.2 Textile Waste 6 1.3 Classification of Textile Waste 7 1.4 Pre-Consumer Textile Waste 7 1.5 Post-Consumer Textile Waste 14 1.6 Soft and Hard Waste 16 1.7 Major Reasons for Textile Waste Production 17 1.8 Textile Waste--Associated Environmental Hazards 20 1.9 Future Prospect 24 1.10 Conclusion 25 2 Challenges in Handling and Systematically Organizing Textile Waste 29 A.K. Choudhary and Prashant Kumar 2.1 Introduction 30 2.2 Types of Textile Waste 32 2.3 Textile Waste Management 34 2.4 Major Challenges in Managing Textile Waste 35 2.5 Challenges in Textile Recycling (Solid Waste) 38 2.6 Challenges in Different Methods for Recovering Waste from the Textile Industry 45 3 Overview of Textile Recycling (Solid Waste) 59 Debarati Maity, Akash Borkar, Suvojit Ghosh and Anagha S. Sabnis 3.1 Introduction 61 3.2 Overview of Textile Recycling 63 3.3 Circular Economy 64 3.4 Waste Management 66 3.5 Applications of Recycled Fabrics 73 3.6 Challenges in Fabric Recycling 84 3.7 Technologies and Innovation Involved in Textile Recycling 84 3.8 Conclusions 87 4 Nanoparticle-Facilitated Treatment of Wastewater Containing Textile Dye 97 Anirban Roy and Sampa Chakrabarti 4.1 Introduction 99 4.2 Aim, Objectives, and Scope 103 4.3 Nanoparticle-Based Adsorption Processes for Treatment of Textile Wastewater 103 4.4 Nano-Photocatalysts and Their Application for Treatment of Textile Wastewater 106 4.5 Membrane Processes Involving Nanotechnology for Treatment of Textile Wastewater 112 4.6 Bioremediation Involving Nanomaterials 114 4.7 Ecotoxicological Impact of Using Nanoparticles for Textile Wastewater Treatment 117 4.8 Real-Life Textile Wastewater Treatment Using Nanoparticles 118 4.9 Conclusion 119 5 Innovative Approaches to Recover Waste in the Textile Sector 129 Dipak Kumar Sahu and Goutam Rath 5.1 Introduction 130 5.2 Innovative Approaches for Solid Waste Management 134 5.3 Case Studies of Successful Innovations 143 5.4 Innovative Approaches for Liquid Textile Waste Management 144 5.5 Nanofibers for Dye Separation 152 5.6 Waste Cotton Recycling 153 5.7 Mixed Solid Waste Recycling 154 5.8 Challenges and Prospects 155 5.9 Conclusion 157 Part II: Comprehensive, Sustainable and Productive Recycling of Waste Using Nanotechnology 171 6 Role of Nanotechnology in Recycled Textiles 173 Muhammad Jahanzaib, Shambhavi Sharma and Duckshin Park 6.1 Introduction 174 6.2 Textile Waste Reuse or Recycle 176 6.3 Challenges in Textile Recycling 180 6.4 Nanotechnology in Textiles 182 6.5 The Circular Economy and Nanotechnology: The Case of Recycled Textile Waste 188 6.6 Environmental Hazards Associated with Nanomaterials in the Textile Industry 192 6.7 Nanomaterials From Textile Industry and Health Effects 195 6.8 Industrial Applications of Recycled Textiles 197 6.9 Conclusion 198 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 209 7.2 Sustainable Design Principles 211 7.3 Promoting Conscious Fashion Choices 213 7.4 Sustainable Practices in Textile Production 214 7.5 Role of Technological Advancements in Achieving Sustainability 216 7.6 Technological Innovations in Material Production 219 7.7 Nanotechnology in Fabric Production 223 7.8 Innovations in Nanotechnology Transforming Textile Sector 225 7.9 Nanotextile Market Trend 228 7.10 Emerging Technologies and Future Trend 229 7.11 Conclusion 230 8 Understanding and Characterization of Functional Properties of Novel Recycled Nano-Textile 235 Chet Ram Meena 8.1 Introduction 236 8.2 Current and Future Trends in Novel Nano-Textiles 237 8.3 Nanotechnology (NT) 239 8.4 Nanomaterials (NMs) 240 8.5 Synthesis of Nanomaterials (NMs) 244 8.6 Characterization of Nanomaterials 246 8.7 Applications of Nanotechnology 253 8.8 Novel Nano-Textile 258 8.9 Environmental and Health Concerns Connected with Nanomaterials 259 8.10 Overpowering the Threats Connected with Nanomaterials 261 8.11 Conclusion 262 9 Future Perspective of Nanotechnology in Relation to Textile Applications Using Textile Waste 265 Ruchi Kholiya, Shefali Massey and Mansi Hans 9.1 Introduction 266 9.2 Nanotechnology and Its Emergence 267 9.3 What is Textile Waste? 272 9.4 Potential of Nanotechnology in the Utilization of Textile Waste 275 9.5 Environmental, Health, and Safety Concerns of Nanotechnology 278 9.6 Conclusion 279 Part III: Advanced Application of Recycled and Nano-Assisted Novel Textile Generated Through Waste 285 10 Utilizing Textile Waste in the Production of Nanotechnology-Based Sports Textiles 287 Janmay Singh Hada 10.1 Introduction 289 10.2 Integration of Textile Waste and Nanotechnology 291 10.3 Sport Textiles 292 10.4 Nanotechnology and Nanomaterials in Sport Textiles 293 10.5 Textile Waste 299 10.6 Health and Safety Measures 301 10.7 Present Scenario 302 10.8 Composites 304 10.9 Nanotechnology is Applied to Enable Self-Cleaning Properties in Textile Waste 305 10.10 Innovations 305 10.11 Conclusion 306 11 Functional Textiles from Agro-Industrial Waste 311 Shubham Joshi, Neelu Kambo and Saurabh Dubey 11.1 Introduction 312 11.2 Socio-Economic Perspective 315 11.3 Agro-Industrial Waste 316 11.4 Extraction and Formulation of Natural Compounds 323 11.5 Functional Properties of Agro-Industrial Waste-Based Formulations 329 11.6 Future and Challenges 344 11.7 Conclusion 345 12 Potential Application of Recycled Waste in Technical Textiles 351 Blesson Tom Mathew, Advitiya Kumar and Archana Samanta 12.1 Introduction 352 12.2 Overview of Technical Textiles 353 12.3 Textile Waste: Sources and Challenges 354 12.4 Recycling Technologies 356 12.5 Benefits of Using Recycled Waste in Technical Textiles 357 12.6 Application of Recycled Waste in Technical Textiles 358 12.7 Environmental and Economic Impact 370 12.8 Conclusion 371 13 Nano-Engineered Protective Textiles Using Recycled Wastes 379 Rupayan Roy and Pravin P. Chavan 13.1 Introduction 380 13.2 Recycled Waste Materials for Protective Textiles 385 13.3 Nano-Engineering in Protective Textiles 387 13.4 Characterization of Nano-Engineered Protective Textiles Using Recycled Wastes 389 13.5 Applications of Nano-Engineered Protective Textiles Using Recycled Wastes 391 13.6 Future Prospects and Challenges 393 14 Advanced Application of Recycled Textile Generated from Waste in Military Application Using Nanotechnology 403 Rohit Rai and Prodyut Dhar 14.1 Introduction 404 14.2 Types and Sources of Waste 408 14.3 Fiber Waste Recycling Procedures 408 14.4 Approaches in Fiber Recycling 410 14.5 Textile Modification with Nanotechnology for Military Applications 414 14.6 Defense Applications of Nanotechnology-Based Textiles 420 14.7 Utilization of Sustainable Nanotextiles for Military Applications 426 14.8 Conclusions 429 Part IV: Quality Control and Regulatory Aspects of Advanced Nano Textile Material with Respect to Industries 435 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 439 15.2 Textile Industry and Environmental Impact 439 15.3 Global Legislation for Textile Waste Management 441 15.4 International Schemes and Initiatives 443 15.5 Standards and Certifications 445 15.6 Challenges and Limitations 447 15.7 Benefits and Impacts of Legislation and Standards 449 15.8 Case Studies 451 15.9 Future Prospects and Recommendations 453 15.10 Conclusion 455 16 Prevailing Eco-Parameters and Protocols for Nanotechnology in the Textile Industry 461 Sanduru Sai Keerthana, Vivek Dave and Prashansa Sharma 16.1 Introduction 462 16.2 Environmental Implications of Nanotechnology 463 16.3 Industrial Use of Nanotechnology in Textiles 467 16.4 A Brief Note on Textile Recycling 469 16.5 An Overview of the Industrial Process in Textile Industry 470 16.6 Textile Waste and Its Environmental Problems 471 16.7 Pollution Output 474 16.8 Restricted Substances 477 16.9 Protocols for Industrial Use of Nanotechnology 481 16.10 Nanotechnology-Based Textiles and Nano-Safety Concerns 482 16.11 Regulation Methods for Nanomaterials 483 16.12 Principles for the Safe Handling of Nanomaterials 485 16.13 Risk Management and Assurance in Quality for Nano-Coated Textile Products 486 16.14 Good Practices and Test Guidelines 487 16.15 Applications for Nanotextiles 488 16.16 Conclusion 490 References 491 Index 497
Preface xxi Part I: Overview of Textile Waste and Management 1 1 Overview of Textile Waste 3 Amisha Singh, Shilpi Shree Sahay and Prashansa Sharma 1.1 Introduction 4 1.2 Textile Waste 6 1.3 Classification of Textile Waste 7 1.4 Pre-Consumer Textile Waste 7 1.5 Post-Consumer Textile Waste 14 1.6 Soft and Hard Waste 16 1.7 Major Reasons for Textile Waste Production 17 1.8 Textile Waste--Associated Environmental Hazards 20 1.9 Future Prospect 24 1.10 Conclusion 25 2 Challenges in Handling and Systematically Organizing Textile Waste 29 A.K. Choudhary and Prashant Kumar 2.1 Introduction 30 2.2 Types of Textile Waste 32 2.3 Textile Waste Management 34 2.4 Major Challenges in Managing Textile Waste 35 2.5 Challenges in Textile Recycling (Solid Waste) 38 2.6 Challenges in Different Methods for Recovering Waste from the Textile Industry 45 3 Overview of Textile Recycling (Solid Waste) 59 Debarati Maity, Akash Borkar, Suvojit Ghosh and Anagha S. Sabnis 3.1 Introduction 61 3.2 Overview of Textile Recycling 63 3.3 Circular Economy 64 3.4 Waste Management 66 3.5 Applications of Recycled Fabrics 73 3.6 Challenges in Fabric Recycling 84 3.7 Technologies and Innovation Involved in Textile Recycling 84 3.8 Conclusions 87 4 Nanoparticle-Facilitated Treatment of Wastewater Containing Textile Dye 97 Anirban Roy and Sampa Chakrabarti 4.1 Introduction 99 4.2 Aim, Objectives, and Scope 103 4.3 Nanoparticle-Based Adsorption Processes for Treatment of Textile Wastewater 103 4.4 Nano-Photocatalysts and Their Application for Treatment of Textile Wastewater 106 4.5 Membrane Processes Involving Nanotechnology for Treatment of Textile Wastewater 112 4.6 Bioremediation Involving Nanomaterials 114 4.7 Ecotoxicological Impact of Using Nanoparticles for Textile Wastewater Treatment 117 4.8 Real-Life Textile Wastewater Treatment Using Nanoparticles 118 4.9 Conclusion 119 5 Innovative Approaches to Recover Waste in the Textile Sector 129 Dipak Kumar Sahu and Goutam Rath 5.1 Introduction 130 5.2 Innovative Approaches for Solid Waste Management 134 5.3 Case Studies of Successful Innovations 143 5.4 Innovative Approaches for Liquid Textile Waste Management 144 5.5 Nanofibers for Dye Separation 152 5.6 Waste Cotton Recycling 153 5.7 Mixed Solid Waste Recycling 154 5.8 Challenges and Prospects 155 5.9 Conclusion 157 Part II: Comprehensive, Sustainable and Productive Recycling of Waste Using Nanotechnology 171 6 Role of Nanotechnology in Recycled Textiles 173 Muhammad Jahanzaib, Shambhavi Sharma and Duckshin Park 6.1 Introduction 174 6.2 Textile Waste Reuse or Recycle 176 6.3 Challenges in Textile Recycling 180 6.4 Nanotechnology in Textiles 182 6.5 The Circular Economy and Nanotechnology: The Case of Recycled Textile Waste 188 6.6 Environmental Hazards Associated with Nanomaterials in the Textile Industry 192 6.7 Nanomaterials From Textile Industry and Health Effects 195 6.8 Industrial Applications of Recycled Textiles 197 6.9 Conclusion 198 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 209 7.2 Sustainable Design Principles 211 7.3 Promoting Conscious Fashion Choices 213 7.4 Sustainable Practices in Textile Production 214 7.5 Role of Technological Advancements in Achieving Sustainability 216 7.6 Technological Innovations in Material Production 219 7.7 Nanotechnology in Fabric Production 223 7.8 Innovations in Nanotechnology Transforming Textile Sector 225 7.9 Nanotextile Market Trend 228 7.10 Emerging Technologies and Future Trend 229 7.11 Conclusion 230 8 Understanding and Characterization of Functional Properties of Novel Recycled Nano-Textile 235 Chet Ram Meena 8.1 Introduction 236 8.2 Current and Future Trends in Novel Nano-Textiles 237 8.3 Nanotechnology (NT) 239 8.4 Nanomaterials (NMs) 240 8.5 Synthesis of Nanomaterials (NMs) 244 8.6 Characterization of Nanomaterials 246 8.7 Applications of Nanotechnology 253 8.8 Novel Nano-Textile 258 8.9 Environmental and Health Concerns Connected with Nanomaterials 259 8.10 Overpowering the Threats Connected with Nanomaterials 261 8.11 Conclusion 262 9 Future Perspective of Nanotechnology in Relation to Textile Applications Using Textile Waste 265 Ruchi Kholiya, Shefali Massey and Mansi Hans 9.1 Introduction 266 9.2 Nanotechnology and Its Emergence 267 9.3 What is Textile Waste? 272 9.4 Potential of Nanotechnology in the Utilization of Textile Waste 275 9.5 Environmental, Health, and Safety Concerns of Nanotechnology 278 9.6 Conclusion 279 Part III: Advanced Application of Recycled and Nano-Assisted Novel Textile Generated Through Waste 285 10 Utilizing Textile Waste in the Production of Nanotechnology-Based Sports Textiles 287 Janmay Singh Hada 10.1 Introduction 289 10.2 Integration of Textile Waste and Nanotechnology 291 10.3 Sport Textiles 292 10.4 Nanotechnology and Nanomaterials in Sport Textiles 293 10.5 Textile Waste 299 10.6 Health and Safety Measures 301 10.7 Present Scenario 302 10.8 Composites 304 10.9 Nanotechnology is Applied to Enable Self-Cleaning Properties in Textile Waste 305 10.10 Innovations 305 10.11 Conclusion 306 11 Functional Textiles from Agro-Industrial Waste 311 Shubham Joshi, Neelu Kambo and Saurabh Dubey 11.1 Introduction 312 11.2 Socio-Economic Perspective 315 11.3 Agro-Industrial Waste 316 11.4 Extraction and Formulation of Natural Compounds 323 11.5 Functional Properties of Agro-Industrial Waste-Based Formulations 329 11.6 Future and Challenges 344 11.7 Conclusion 345 12 Potential Application of Recycled Waste in Technical Textiles 351 Blesson Tom Mathew, Advitiya Kumar and Archana Samanta 12.1 Introduction 352 12.2 Overview of Technical Textiles 353 12.3 Textile Waste: Sources and Challenges 354 12.4 Recycling Technologies 356 12.5 Benefits of Using Recycled Waste in Technical Textiles 357 12.6 Application of Recycled Waste in Technical Textiles 358 12.7 Environmental and Economic Impact 370 12.8 Conclusion 371 13 Nano-Engineered Protective Textiles Using Recycled Wastes 379 Rupayan Roy and Pravin P. Chavan 13.1 Introduction 380 13.2 Recycled Waste Materials for Protective Textiles 385 13.3 Nano-Engineering in Protective Textiles 387 13.4 Characterization of Nano-Engineered Protective Textiles Using Recycled Wastes 389 13.5 Applications of Nano-Engineered Protective Textiles Using Recycled Wastes 391 13.6 Future Prospects and Challenges 393 14 Advanced Application of Recycled Textile Generated from Waste in Military Application Using Nanotechnology 403 Rohit Rai and Prodyut Dhar 14.1 Introduction 404 14.2 Types and Sources of Waste 408 14.3 Fiber Waste Recycling Procedures 408 14.4 Approaches in Fiber Recycling 410 14.5 Textile Modification with Nanotechnology for Military Applications 414 14.6 Defense Applications of Nanotechnology-Based Textiles 420 14.7 Utilization of Sustainable Nanotextiles for Military Applications 426 14.8 Conclusions 429 Part IV: Quality Control and Regulatory Aspects of Advanced Nano Textile Material with Respect to Industries 435 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 439 15.2 Textile Industry and Environmental Impact 439 15.3 Global Legislation for Textile Waste Management 441 15.4 International Schemes and Initiatives 443 15.5 Standards and Certifications 445 15.6 Challenges and Limitations 447 15.7 Benefits and Impacts of Legislation and Standards 449 15.8 Case Studies 451 15.9 Future Prospects and Recommendations 453 15.10 Conclusion 455 16 Prevailing Eco-Parameters and Protocols for Nanotechnology in the Textile Industry 461 Sanduru Sai Keerthana, Vivek Dave and Prashansa Sharma 16.1 Introduction 462 16.2 Environmental Implications of Nanotechnology 463 16.3 Industrial Use of Nanotechnology in Textiles 467 16.4 A Brief Note on Textile Recycling 469 16.5 An Overview of the Industrial Process in Textile Industry 470 16.6 Textile Waste and Its Environmental Problems 471 16.7 Pollution Output 474 16.8 Restricted Substances 477 16.9 Protocols for Industrial Use of Nanotechnology 481 16.10 Nanotechnology-Based Textiles and Nano-Safety Concerns 482 16.11 Regulation Methods for Nanomaterials 483 16.12 Principles for the Safe Handling of Nanomaterials 485 16.13 Risk Management and Assurance in Quality for Nano-Coated Textile Products 486 16.14 Good Practices and Test Guidelines 487 16.15 Applications for Nanotextiles 488 16.16 Conclusion 490 References 491 Index 497
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