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The idea of Digitalization and Manufacturing Performance is to highlight different tools and techniques for sustainable product development. This book emphasizes how enabling sustainable product development tools and techniques are used in modern organizations. The goal is to develop a new framework for organizations and meet regulatory and consumer demands. For this purpose, this book has been designed to investigate the parameters that contribute to the success of the manufacturing industry. Manufacturing processes are an important topic to address right now as they involve the environment…mehr
The idea of Digitalization and Manufacturing Performance is to highlight different tools and techniques for sustainable product development. This book emphasizes how enabling sustainable product development tools and techniques are used in modern organizations. The goal is to develop a new framework for organizations and meet regulatory and consumer demands. For this purpose, this book has been designed to investigate the parameters that contribute to the success of the manufacturing industry. Manufacturing processes are an important topic to address right now as they involve the environment and methods to strengthen industry operations. The contents of this book are designed to investigate green engineering techniques and green product development. Readers invest in chapters dedicated to discussing different sustainable technologies, like the automobile sector, which has taken initiatives to reduce carbon content through new technology. In addition, ideas on alternate renewable energy sources are promoted to readers who are interested in this field. In another section, the development of a new framework for how GPD is incorporated in organizations. Therefore, this book addresses different sustainable technologies and different maintenance 4.0 techniques. These techniques are important to integrate to achieve optimal maintenance in organizations and field service.
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Autorenporträt
Chandan Deep Singh, PhD is an assistant professor in the Department of Mechanical Engineering at Punjabi University. He has published over 120 papers in international journals and conferences, 59 reference books, and ten book chapters. Additionally, he has been granted one international patent and filed another. His research interests include fuzzy logic, MATLAB, and structural equation modeling. Talwinder Singh, PhD is an assistant professor in the Department of Mechanical Engineering at Punjabi University. He has published 23 research papers in national and international journals, as well as one book. His research interests include green engineering, environmentally friendly machining, and minimum quantity lubrication. Davinder Singh, PhD is an assistant professor in the Department of Mechanical Engineering at Punjabi University. He has published over 25 papers in international journals and conferences. His research interests include production and industrial engineering, manufacturing technology, and innovation management.
Inhaltsangabe
Preface xv 1 Green Energy Technologies 1 Chandan Deep Singh 1.1 Introduction 1 1.2 Industrial Processes 4 1.3 Overview of Renewable Energy Technologies 8 1.4 Dedicated Energy Crops 24 1.5 Agricultural Crop Residue 25 1.6 Forestry Residues 25 1.7 Algae 25 1.8 Wood Processing Residues 26 1.9 Sorted Municipal Waste 26 1.10 Wet Waste 26 1.11 What is Solar PV? 31 1.12 Solar Photovoltaic Energy Conversion 32 1.13 What is Waste to Energy? 33 1.14 Where are Nanomaterials Found? 45 2 Recent Advances in Green Energy Materials: A Review 51 Mukhtiar Singh, Maninder Singh, Jasvinder Singh, Mandeep Singh and Harjit Singh 2.1 Introduction 52 2.2 Solar Energy Materials 54 2.3 Wind Energy Materials 56 2.4 Hydroelectric Energy Materials 56 2.5 Geothermal Energy Materials 62 2.6 Biomass Energy Materials 64 2.7 Conclusion 70 3 Green Computing Technologies: Toward Sustainable Computing 73 Maninder Singh, Mukhtiar Singh, Jasvinder Singh, Harjit Singh and Mandeep Singh 3.1 Introduction 74 3.2 Virtualization and Cloud Computing 79 3.3 Sustainable Computing Practices 84 3.4 Green Computing in Industry and Society 87 3.5 Challenges and Opportunities 90 3.6 Conclusion 93 4 Application of Machine Learning Techniques for Environmental Monitoring and Conservation: A Review 97 Mukhtiar Singh, Maninder Singh, Jasvinder Singh, Harjit Singh and Mandeep Singh 4.1 Introduction 98 4.2 Machine Learning Techniques 106 4.3 Applications of Machine Learning in Environmental Aspect 109 4.4 Natural Resource Management and Conservation 113 4.5 Biodiversity Conservation 114 4.6 Waste Management and Recycling 115 4.7 Challenges and Opportunities 116 4.8 Opportunities for the Advancement of Machine Learning in Environmental Aspect 117 4.9 Ethics, Transparency, and Fairness in Machine Learning for Environmental Aspect 118 4.10 Real-World Applications of Machine Learning in Environmental Aspect 120 4.11 Case Studies 121 4.12 Success Stories and Best Practices 122 4.13 Conclusion and Recommendations 124 5 Green Engineering in IoT 129 Talwinder Singh and Davinder Singh 5.1 Introduction 130 5.2 IoT Data Types 130 5.3 What is Green IoT? 132 5.4 Benefits of Adopting Green IoT 134 5.5 Green IoT Components 135 5.6 Recommendations for Raising Awareness and Future Research Directions 145 6 Green Engineering in Product Development 149 Harpreet Sharma, Chandan Deep Singh and Kanwaljeet Singh 6.1 Introduction and Meaning 149 6.2 Principles of Green Engineering 151 6.3 Benefits of Green Engineering 157 6.4 Promoting Green Engineering Through Green Chemistry 158 6.5 Sustainability and Green Engineering Innovations That Might Just Change the World 159 6.6 Conclusion 163 7 Green Policies in Education: Fostering Environmental Stewardship and Sustainable Practices 167 Mukhtiar Singh, Maninder Singh, Jasvinder Singh, Harjit Singh and Mandeep Singh 7.1 Introduction 168 7.2 Theoretical Framework 175 7.3 Policy Development and Implementation 178 7.4 Curriculum Integration and Pedagogy 182 7.5 Infrastructure and Facilities 184 7.6 Student Engagement and Participation 189 7.7 Collaboration and Partnerships 190 7.8 Monitoring, Evaluation, and Reporting 191 7.9 Challenges and Future Directions 196 7.10 Conclusion 207 8 Green Engineering in Automobile Sector 211 Harjit Singh, Mukhtiar Singh, Jasvinder Singh and Maninder Singh 8.1 Introduction 211 8.2 Green Engineering in Automobile Design 215 8.3 Conclusion 228 9 Towards Sustainable Manufacturing: Integrating Digital Technologies on the Green Path 235 Harjit Singh, Mukhtiar Singh, Jasvinder Singh and Maninder Singh 9.1 Introduction 235 9.2 Digital Technologies for Sustainable Manufacturing with Internet of Things (IoT) 241 9.3 Digital Technologies for Sustainable Manufacturing with Artificial Intelligence 241 9.4 Digital Technologies for Sustainable Manufacturing with Digital Twins 242 9.5 Digital Technologies for Sustainable Manufacturing with Additive Manufacturing (3D Printing) 243 9.6 Digital Technologies for Sustainable Manufacturing with Augmented Reality (AR) 244 9.7 Green Path for Sustainable Manufacturing 245 9.8 Introduction to Green Manufacturing 246 9.9 Future Trends in Sustainable Manufacturing 253 9.10 Emerging Digital Technologies for Sustainable Manufacturing 254 9.11 New Trends in Green Manufacturing Practices 254 9.12 Future Directions for Sustainable Manufacturing 255 9.13 Conclusion 256 9.14 Future Scope 257 10 Smart Manufacturing for a Sustainable Future: A Review 265 Maninder Singh, Mukhtiar Singh, Jasvinder Singh and Harjit Singh 10.1 Introduction 266 10.2 Smart Manufacturing for Green Future 267 10.3 Green Supply Chain Management 269 10.4 Waste Reduction 270 10.5 Renewable Energy Integration 271 10.6 Green Product Design 272 10.7 Circular Economy 273 10.8 Water Conservation 274 10.9 Green Data Centers 275 10.10 Conclusion 276 11 Smart Manufacturing for a Greener Future 281 Harpreet Sharma, Chandan Deep Singh and Kanwaljeet Singh 11.1 Introduction and Meaning 281 11.2 Historical Background of Manufacturing 284 11.3 Characteristics and Challenges of Smart Manufacturing Systems 288 11.4 Enabling Mechanisms Toward Smart Manufacturing for Greener Future 291 11.5 Supporting Tool/Methods Toward Smart Manufacturing for Greener Future 294 11.6 Conclusions 296 References 297 Index 299
Preface xv 1 Green Energy Technologies 1 Chandan Deep Singh 1.1 Introduction 1 1.2 Industrial Processes 4 1.3 Overview of Renewable Energy Technologies 8 1.4 Dedicated Energy Crops 24 1.5 Agricultural Crop Residue 25 1.6 Forestry Residues 25 1.7 Algae 25 1.8 Wood Processing Residues 26 1.9 Sorted Municipal Waste 26 1.10 Wet Waste 26 1.11 What is Solar PV? 31 1.12 Solar Photovoltaic Energy Conversion 32 1.13 What is Waste to Energy? 33 1.14 Where are Nanomaterials Found? 45 2 Recent Advances in Green Energy Materials: A Review 51 Mukhtiar Singh, Maninder Singh, Jasvinder Singh, Mandeep Singh and Harjit Singh 2.1 Introduction 52 2.2 Solar Energy Materials 54 2.3 Wind Energy Materials 56 2.4 Hydroelectric Energy Materials 56 2.5 Geothermal Energy Materials 62 2.6 Biomass Energy Materials 64 2.7 Conclusion 70 3 Green Computing Technologies: Toward Sustainable Computing 73 Maninder Singh, Mukhtiar Singh, Jasvinder Singh, Harjit Singh and Mandeep Singh 3.1 Introduction 74 3.2 Virtualization and Cloud Computing 79 3.3 Sustainable Computing Practices 84 3.4 Green Computing in Industry and Society 87 3.5 Challenges and Opportunities 90 3.6 Conclusion 93 4 Application of Machine Learning Techniques for Environmental Monitoring and Conservation: A Review 97 Mukhtiar Singh, Maninder Singh, Jasvinder Singh, Harjit Singh and Mandeep Singh 4.1 Introduction 98 4.2 Machine Learning Techniques 106 4.3 Applications of Machine Learning in Environmental Aspect 109 4.4 Natural Resource Management and Conservation 113 4.5 Biodiversity Conservation 114 4.6 Waste Management and Recycling 115 4.7 Challenges and Opportunities 116 4.8 Opportunities for the Advancement of Machine Learning in Environmental Aspect 117 4.9 Ethics, Transparency, and Fairness in Machine Learning for Environmental Aspect 118 4.10 Real-World Applications of Machine Learning in Environmental Aspect 120 4.11 Case Studies 121 4.12 Success Stories and Best Practices 122 4.13 Conclusion and Recommendations 124 5 Green Engineering in IoT 129 Talwinder Singh and Davinder Singh 5.1 Introduction 130 5.2 IoT Data Types 130 5.3 What is Green IoT? 132 5.4 Benefits of Adopting Green IoT 134 5.5 Green IoT Components 135 5.6 Recommendations for Raising Awareness and Future Research Directions 145 6 Green Engineering in Product Development 149 Harpreet Sharma, Chandan Deep Singh and Kanwaljeet Singh 6.1 Introduction and Meaning 149 6.2 Principles of Green Engineering 151 6.3 Benefits of Green Engineering 157 6.4 Promoting Green Engineering Through Green Chemistry 158 6.5 Sustainability and Green Engineering Innovations That Might Just Change the World 159 6.6 Conclusion 163 7 Green Policies in Education: Fostering Environmental Stewardship and Sustainable Practices 167 Mukhtiar Singh, Maninder Singh, Jasvinder Singh, Harjit Singh and Mandeep Singh 7.1 Introduction 168 7.2 Theoretical Framework 175 7.3 Policy Development and Implementation 178 7.4 Curriculum Integration and Pedagogy 182 7.5 Infrastructure and Facilities 184 7.6 Student Engagement and Participation 189 7.7 Collaboration and Partnerships 190 7.8 Monitoring, Evaluation, and Reporting 191 7.9 Challenges and Future Directions 196 7.10 Conclusion 207 8 Green Engineering in Automobile Sector 211 Harjit Singh, Mukhtiar Singh, Jasvinder Singh and Maninder Singh 8.1 Introduction 211 8.2 Green Engineering in Automobile Design 215 8.3 Conclusion 228 9 Towards Sustainable Manufacturing: Integrating Digital Technologies on the Green Path 235 Harjit Singh, Mukhtiar Singh, Jasvinder Singh and Maninder Singh 9.1 Introduction 235 9.2 Digital Technologies for Sustainable Manufacturing with Internet of Things (IoT) 241 9.3 Digital Technologies for Sustainable Manufacturing with Artificial Intelligence 241 9.4 Digital Technologies for Sustainable Manufacturing with Digital Twins 242 9.5 Digital Technologies for Sustainable Manufacturing with Additive Manufacturing (3D Printing) 243 9.6 Digital Technologies for Sustainable Manufacturing with Augmented Reality (AR) 244 9.7 Green Path for Sustainable Manufacturing 245 9.8 Introduction to Green Manufacturing 246 9.9 Future Trends in Sustainable Manufacturing 253 9.10 Emerging Digital Technologies for Sustainable Manufacturing 254 9.11 New Trends in Green Manufacturing Practices 254 9.12 Future Directions for Sustainable Manufacturing 255 9.13 Conclusion 256 9.14 Future Scope 257 10 Smart Manufacturing for a Sustainable Future: A Review 265 Maninder Singh, Mukhtiar Singh, Jasvinder Singh and Harjit Singh 10.1 Introduction 266 10.2 Smart Manufacturing for Green Future 267 10.3 Green Supply Chain Management 269 10.4 Waste Reduction 270 10.5 Renewable Energy Integration 271 10.6 Green Product Design 272 10.7 Circular Economy 273 10.8 Water Conservation 274 10.9 Green Data Centers 275 10.10 Conclusion 276 11 Smart Manufacturing for a Greener Future 281 Harpreet Sharma, Chandan Deep Singh and Kanwaljeet Singh 11.1 Introduction and Meaning 281 11.2 Historical Background of Manufacturing 284 11.3 Characteristics and Challenges of Smart Manufacturing Systems 288 11.4 Enabling Mechanisms Toward Smart Manufacturing for Greener Future 291 11.5 Supporting Tool/Methods Toward Smart Manufacturing for Greener Future 294 11.6 Conclusions 296 References 297 Index 299
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