Digital Technology Enabled Circular Economy
Models for Environmental and Resource Sustainability
Herausgeber: Moharana, Bikash Ranjan; Muduli, Kamalakanta; Behera, Bikash Chandra
Digital Technology Enabled Circular Economy
Models for Environmental and Resource Sustainability
Herausgeber: Moharana, Bikash Ranjan; Muduli, Kamalakanta; Behera, Bikash Chandra
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This book presents cutting-edge findings that draw on the use of AI, the Industrial Internet of Things, Blockchain, and Co-Analytics for the development of Circular Economy (CE) models, to make organizational activities more sustainable.
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This book presents cutting-edge findings that draw on the use of AI, the Industrial Internet of Things, Blockchain, and Co-Analytics for the development of Circular Economy (CE) models, to make organizational activities more sustainable.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis
- Seitenzahl: 216
- Erscheinungstermin: 9. August 2024
- Englisch
- Abmessung: 237mm x 159mm x 18mm
- Gewicht: 484g
- ISBN-13: 9781032392493
- ISBN-10: 1032392495
- Artikelnr.: 70146882
- Verlag: Taylor & Francis
- Seitenzahl: 216
- Erscheinungstermin: 9. August 2024
- Englisch
- Abmessung: 237mm x 159mm x 18mm
- Gewicht: 484g
- ISBN-13: 9781032392493
- ISBN-10: 1032392495
- Artikelnr.: 70146882
Dr. Bikash Ranjan Moharana is presently working as a Senior Lecturer in the Department of Mechanical Engineering, Papua New Guinea University of Technology, Lae, Morobe Province, Papua New Guinea. He received his Ph.D. degree from the Department of Mechanical Engineering at the National Institute of Technology, Rourkela, India in 2018. He obtained his master's degree from Veer Surendra Sai University of Technology, Burla, Odisha. Dr. Moharana has published more than 25 papers in various peer-reviewed Scopus and SCI-indexed journals, conference proceedings, and book chapters and edited 2 books published by CRC Press/Taylor and Francis Group. His main research interests focus on various fusion welding processes, non-traditional machining, process optimization, and mechanical and metallurgical analysis. He is a fellow member of the Institution of Engineers India, IIW, and IWS. Dr. Bikash Chandra Behera works as an Assistant Professor at the Department of Mechanical Engineering, C. V. Raman Global University, Bhubaneswar, India. He is currently working in Artificial Intelligence and Machine Learning applications in manufacturing processes. Dr. Behera received his master's and doctoral degrees from the NIT, Rourkela, India, and the Indian Institute of Technology, Delhi, India, respectively. Throughout his career, he has authored more than 30 articles published in peer-reviewed reputable journals. He has presented articles at globally reputed conferences and has published book chapters, as well. His research interests include Sustainable Machining, Machining Tribology, and Micro Machining. Dr. Kamalakanta Muduli is presently working as an Associate Professor in the Department of Mechanical Engineering, at the Papua New Guinea University of Technology, Lae, Morobe Province, Papua New Guinea. He is also a Visiting Researcher at the University of Derby, UK. He obtained his Ph.D. from the School of Mechanical Sciences, IIT Bhubaneswar, Orissa, India. Dr. Muduli has over 17 years of academic experience in India and Papua New Guinea. Dr. Muduli is a recipient of the ERASMUS+ KA107 award provided by the European Union and has published 94 papers in peer-reviewed international journals, most of which are indexed in Clarivate Analytics, and Scopus, and listed in ABDC. He has also presented more than 35 papers at National and International Conferences. Dr. Muduli has guest edited 5 Special Issues journals and 10 books published by Springer, CRC Press of Taylor & Francis, MDPI, Wiley-Scrivener, and Apple Academic Press. He also has guided three Ph.D. students and is a fellow of the Institution of Engineers India. He is also a senior member of the Indian Institution of Industrial Engineering and a member of ASME. His current research interest includes Manufacturing, Sustainable supply chain management, and Industry 4.0 applications in operations and supply chain management.
1. An Insight of Digital Technology's Role in the Solar Energy Sector and
Its Implications for Sustainable Energy Generation. 2. Green Energy: A
Sustainable Approach for Water Desalination using "Solar Still". 3.
Statistical Modelling For Ergonomic Assessment of Lathe Machine Operators:
A Sustainable Approach to Assess the Impact of Occupational Health Hazards.
4. An Evaluation of the Impact of Circular Economy (CE) Models Based on AI
and IoT for Job Creation and Reallocation. 5. An EOQ Ordering Policy for
Items with Varying Deterioration, Exponential Declining Demand and
Shortages. 6. Development of Sustainability Indicators for Smart and
Connected Digital Manufacturing Systems. 7. Performance Investigations on
Robots to Attain Environmental Sustainability. 8. Enhancing Thermal
Performance of Protective Textiles Through Smart and Sustainable Fabric
with Internal Structure Adjustments: Recent Breakthroughs and Developments.
9. Role of Industrial Internet of Things (IIoT) Enabled Smart Warehousing
for Sustainable Perishable Food Supply Chains. 10. An Examination of the
Impact of Green Marketing Strategies on Consumer Attitudes Towards
Environmental Sustainability. 11. A Framework to Evaluate the Influence of
Digital Technology and Sustainable Smart Product-Service Systems on
Greenhouse Gas Emissions. 12. Enhancement of Sustainability Practices in
Logistics through Adoption of Digital Technologies: Application to PNG
Context from Global Perspective. 13. Advertising in the Era of Artificial
Intelligence (AI): An Opportunity for Circular Economy. 14. Minimum
Quantity Lubrication: An Alternative Sustainable Cooling Technique for
Machining Industry.
Its Implications for Sustainable Energy Generation. 2. Green Energy: A
Sustainable Approach for Water Desalination using "Solar Still". 3.
Statistical Modelling For Ergonomic Assessment of Lathe Machine Operators:
A Sustainable Approach to Assess the Impact of Occupational Health Hazards.
4. An Evaluation of the Impact of Circular Economy (CE) Models Based on AI
and IoT for Job Creation and Reallocation. 5. An EOQ Ordering Policy for
Items with Varying Deterioration, Exponential Declining Demand and
Shortages. 6. Development of Sustainability Indicators for Smart and
Connected Digital Manufacturing Systems. 7. Performance Investigations on
Robots to Attain Environmental Sustainability. 8. Enhancing Thermal
Performance of Protective Textiles Through Smart and Sustainable Fabric
with Internal Structure Adjustments: Recent Breakthroughs and Developments.
9. Role of Industrial Internet of Things (IIoT) Enabled Smart Warehousing
for Sustainable Perishable Food Supply Chains. 10. An Examination of the
Impact of Green Marketing Strategies on Consumer Attitudes Towards
Environmental Sustainability. 11. A Framework to Evaluate the Influence of
Digital Technology and Sustainable Smart Product-Service Systems on
Greenhouse Gas Emissions. 12. Enhancement of Sustainability Practices in
Logistics through Adoption of Digital Technologies: Application to PNG
Context from Global Perspective. 13. Advertising in the Era of Artificial
Intelligence (AI): An Opportunity for Circular Economy. 14. Minimum
Quantity Lubrication: An Alternative Sustainable Cooling Technique for
Machining Industry.
1. An Insight of Digital Technology's Role in the Solar Energy Sector and
Its Implications for Sustainable Energy Generation. 2. Green Energy: A
Sustainable Approach for Water Desalination using "Solar Still". 3.
Statistical Modelling For Ergonomic Assessment of Lathe Machine Operators:
A Sustainable Approach to Assess the Impact of Occupational Health Hazards.
4. An Evaluation of the Impact of Circular Economy (CE) Models Based on AI
and IoT for Job Creation and Reallocation. 5. An EOQ Ordering Policy for
Items with Varying Deterioration, Exponential Declining Demand and
Shortages. 6. Development of Sustainability Indicators for Smart and
Connected Digital Manufacturing Systems. 7. Performance Investigations on
Robots to Attain Environmental Sustainability. 8. Enhancing Thermal
Performance of Protective Textiles Through Smart and Sustainable Fabric
with Internal Structure Adjustments: Recent Breakthroughs and Developments.
9. Role of Industrial Internet of Things (IIoT) Enabled Smart Warehousing
for Sustainable Perishable Food Supply Chains. 10. An Examination of the
Impact of Green Marketing Strategies on Consumer Attitudes Towards
Environmental Sustainability. 11. A Framework to Evaluate the Influence of
Digital Technology and Sustainable Smart Product-Service Systems on
Greenhouse Gas Emissions. 12. Enhancement of Sustainability Practices in
Logistics through Adoption of Digital Technologies: Application to PNG
Context from Global Perspective. 13. Advertising in the Era of Artificial
Intelligence (AI): An Opportunity for Circular Economy. 14. Minimum
Quantity Lubrication: An Alternative Sustainable Cooling Technique for
Machining Industry.
Its Implications for Sustainable Energy Generation. 2. Green Energy: A
Sustainable Approach for Water Desalination using "Solar Still". 3.
Statistical Modelling For Ergonomic Assessment of Lathe Machine Operators:
A Sustainable Approach to Assess the Impact of Occupational Health Hazards.
4. An Evaluation of the Impact of Circular Economy (CE) Models Based on AI
and IoT for Job Creation and Reallocation. 5. An EOQ Ordering Policy for
Items with Varying Deterioration, Exponential Declining Demand and
Shortages. 6. Development of Sustainability Indicators for Smart and
Connected Digital Manufacturing Systems. 7. Performance Investigations on
Robots to Attain Environmental Sustainability. 8. Enhancing Thermal
Performance of Protective Textiles Through Smart and Sustainable Fabric
with Internal Structure Adjustments: Recent Breakthroughs and Developments.
9. Role of Industrial Internet of Things (IIoT) Enabled Smart Warehousing
for Sustainable Perishable Food Supply Chains. 10. An Examination of the
Impact of Green Marketing Strategies on Consumer Attitudes Towards
Environmental Sustainability. 11. A Framework to Evaluate the Influence of
Digital Technology and Sustainable Smart Product-Service Systems on
Greenhouse Gas Emissions. 12. Enhancement of Sustainability Practices in
Logistics through Adoption of Digital Technologies: Application to PNG
Context from Global Perspective. 13. Advertising in the Era of Artificial
Intelligence (AI): An Opportunity for Circular Economy. 14. Minimum
Quantity Lubrication: An Alternative Sustainable Cooling Technique for
Machining Industry.