Autore	Singh Chandan Deep
Edizione	[1st ed.]
Pubbl/distr/stampa	Newark : , : John Wiley & Sons, Incorporated, , 2026
Descrizione fisica	1 online resource (227 pages)
Disciplina	658.4/08
Altri autori (Persone)	SinghTalwinder SinghDavinder
Soggetto topico	Manufacturing processes - Technological innovations Manufacturing processes - Environmental aspects
ISBN	1-394-19781-0 1-394-19782-9
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Cover -- Series Page -- Title Page -- Copyright Page -- Contents -- Preface -- Chapter 1 Green Energy Technologies -- 1.1 Introduction -- 1.2 Industrial Processes -- 1.3 Overview of Renewable Energy Technologies -- 1.4 Dedicated Energy Crops -- 1.5 Agricultural Crop Residue -- 1.6 Forestry Residues -- 1.7 Algae -- 1.8 Wood Processing Residues -- 1.9 Sorted Municipal Waste -- 1.10 Wet Waste -- 1.11 What is Solar PV? -- 1.12 Solar Photovoltaic Energy Conversion -- 1.13 What is Waste to Energy? -- 1.14 Where are Nanomaterials Found? -- References -- Chapter 2 Recent Advances in Green Energy Materials: A Review -- 2.1 Introduction -- 2.2 Solar Energy Materials -- 2.3 Wind Energy Materials -- 2.4 Hydroelectric Energy Materials -- 2.4.1 Turbines and Generators -- 2.4.2 Penstocks and Pipelines -- 2.4.3 Dams -- 2.4.4 Roller Compacted Concrete -- 2.4.5 Geosynthetics -- 2.4.6 Bamboo -- 2.4.7 Recycled Materials -- 2.4.8 Transmission Lines -- 2.5 Geothermal Energy Materials -- 2.5.1 Drill Bits and Casing -- 2.5.2 Heat Exchangers -- 2.5.3 Turbines and Generators -- 2.5.4 Piping -- 2.5.5 Sealing Materials -- 2.6 Biomass Energy Materials -- 2.6.1 Combustion Chambers -- 2.6.2 Boilers and Heat Exchangers -- 2.6.3 Gas Cleaning Systems -- 2.6.4 Storage Systems -- 2.6.5 Fuel Handling Systems -- 2.7 Conclusion -- References -- Chapter 3 Green Computing Technologies: Toward Sustainable Computing -- 3.1 Introduction -- 3.1.1 Definition of Green Computing -- 3.1.2 Energy Efficient Computing -- 3.1.3 Low Power Processors and Devices -- 3.1.4 Dynamic Voltage and Frequency Scaling -- 3.1.5 Energy-Efficient Memory Systems with Citation -- 3.1.6 Power Management Techniques -- 3.2 Virtualization and Cloud Computing -- 3.2.1 Virtualization Techniques for Energy Savings -- 3.2.2 Green Cloud Computing -- 3.2.3 Energy-Efficient Data Centers. 3.2.4 Cloud Computing and Carbon Footprint -- 3.2.5 Energy Harvesting and Energy-Neutral Computing -- 3.2.6 Hybrid Systems for Renewable Energy and Traditional Power Sources -- 3.3 Sustainable Computing Practices -- 3.3.1 Green Software Engineering Practices -- 3.3.2 Sustainable Data Management Practices -- 3.3.3 Sustainable Networking Practices -- 3.4 Green Computing in Industry and Society -- 3.4.1 Case Studies of Green Computing in Industry -- 3.4.2 Green Computing Initiatives by Governments and Non-Profits -- 3.4.3 The Role of Green Computing in Achieving Sustainable Development Goals -- 3.5 Challenges and Opportunities -- 3.5.1 Technological Challenges in Green Computing -- 3.5.2 Economic and Social Opportunities of Green Computing -- 3.5.3 Future Directions in Green Computing Research and Development -- 3.6 Conclusion -- References -- Chapter 4 Application of Machine Learning Techniques for Environmental Monitoring and Conservation: A Review -- 4.1 Introduction -- 4.1.1 Background of the Study -- 4.1.2 Machine Learning Techniques in Environmental Aspect -- 4.2 Machine Learning Techniques -- 4.3 Applications of Machine Learning in Environmental Aspect -- 4.3.1 Air Quality Monitoring and Prediction -- 4.3.2 Water Quality Monitoring and Prediction -- 4.3.3 Climate Change Analysis and Prediction -- 4.4 Natural Resource Management and Conservation -- 4.5 Biodiversity Conservation -- 4.6 Waste Management and Recycling -- 4.7 Challenges and Opportunities -- 4.8 Opportunities for the Advancement of Machine Learning in Environmental Aspect -- 4.9 Ethics, Transparency, and Fairness in Machine Learning for Environmental Aspect -- 4.10 Real-World Applications of Machine Learning in Environmental Aspect -- 4.11 Case Studies -- 4.12 Success Stories and Best Practices -- 4.13 Conclusion and Recommendations -- References -- Chapter 5 Green Engineering in IoT. 5.1 Introduction -- 5.2 IoT Data Types -- 5.2.1 IoT Data Value -- 5.3 What is Green IoT? -- 5.4 Benefits of Adopting Green IoT -- 5.4.1 Important Benefits of Adopting Green IoT are Highlighted Below -- 5.5 Green IoT Components -- 5.5.1 Green Wireless Sensor Network (WSN) -- 5.5.2 Green Machine to Machine (M2M) -- 5.5.3 Green Data Center (DC) -- 5.5.3.1 Ways to Achieve a Greener Data Center -- 5.5.4 Green Cloud Computing (CC) -- 5.5.4.1 Green Cloud Computing Objectives -- 5.5.4.2 Green Cloud Computing Benefits -- 5.5.5 Green Radio-Frequency Identification (RFID) -- 5.6 Recommendations for Raising Awareness and Future Research Directions -- References -- Chapter 6 Green Engineering in Product Development -- 6.1 Introduction and Meaning -- 6.2 Principles of Green Engineering -- 6.3 Benefits of Green Engineering -- 6.4 Promoting Green Engineering Through Green Chemistry -- 6.5 Sustainability and Green Engineering Innovations That Might Just Change the World -- 6.6 Conclusion -- References -- Chapter 7 Green Policies in Education: Fostering Environmental Stewardship and Sustainable Practices -- 7.1 Introduction -- 7.1.1 Importance and Relevance of Green Policies in the Education Sector -- 7.1.2 Objectives of the Research -- 7.1.3 Significance of the Study -- 7.2 Theoretical Framework -- 7.2.1 Place-Based Education -- 7.2.2 Addressing Environmental Challenges -- 7.3 Policy Development and Implementation -- 7.3.1 Policy Implementation -- 7.3.2 Case Studies of Successful Policy Implementation in Different Educational Settings -- 7.4 Curriculum Integration and Pedagogy -- 7.5 Infrastructure and Facilities -- 7.5.1 Waste Management and Recycling Initiatives in Educational Institutions -- 7.5.2 Case Studies Showcasing Exemplary Green Infrastructure Projects in Education -- 7.6 Student Engagement and Participation. 7.6.1 Student-Led Initiatives and Organizations Promoting Environmental Awareness and Action -- 7.7 Collaboration and Partnerships -- 7.8 Monitoring, Evaluation, and Reporting -- 7.8.1 Importance of Monitoring and Evaluating the Implementation and Impact of Green Policies -- 7.8.2 Key Indicators and Evaluation Frameworks for Assessing Sustainability in Education -- 7.8.3 Reporting Mechanisms and Accountability in Relation to Green Policies -- 7.9 Challenges and Future Directions -- 7.9.1 Exploration of Potential Solutions and Strategies to Address These Challenges -- 7.9.2 Emerging Trends and Innovations in the Field of Green Policies in Education -- 7.9.3 Summary of the Main Findings and Insights From the Research -- 7.9.4 Contributions of the Study to the Field of Green Policies in Education -- 7.9.5 Implications for Policy, Practice, and Further Research -- 7.9.6 Further Research Implications -- 7.10 Conclusion -- References -- Chapter 8 Green Engineering in Automobile Sector -- 8.1 Introduction -- 8.2 Green Engineering in Automobile Design -- 8.2.1 Green Engineering in Automobile Manufacturing -- 8.2.2 Green Engineering in Automobile Operations -- 8.2.3 Green Engineering in Automobile End-of-Life -- 8.2.4 Case Studies -- 8.3 Conclusion -- References -- Chapter 9 Towards Sustainable Manufacturing: Integrating Digital Technologies on the Green Path -- 9.1 Introduction -- 9.1.1 Sustainable Manufacturing -- 9.1.2 Importance of Sustainable Manufacturing -- 9.1.3 Challenges to Achieving Sustainable Manufacturing -- 9.1.4 Digital Technologies for Sustainable Manufacturing -- 9.1.5 Advantages of Digital Technologies for Sustainable Manufacturing -- 9.2 Digital Technologies for Sustainable Manufacturing with Internet of Things (IoT) -- 9.3 Digital Technologies for Sustainable Manufacturing with Artificial Intelligence. 9.4 Digital Technologies for Sustainable Manufacturing with Digital Twins -- 9.5 Digital Technologies for Sustainable Manufacturing with Additive Manufacturing (3D Printing) -- 9.6 Digital Technologies for Sustainable Manufacturing with Augmented Reality (AR) -- 9.7 Green Path for Sustainable Manufacturing -- 9.8 Introduction to Green Manufacturing -- 9.8.1 Benefits of Green Manufacturing -- 9.8.2 Green Manufacturing Practices with Lean Manufacturing -- 9.8.3 Green Manufacturing Practices with Energy Efficiency -- 9.8.4 Green Manufacturing Practices with Waste Reduction and Recycling -- 9.8.5 Green Manufacturing Practices with Sustainable Supply Chain Management -- 9.8.6 Integration of Digital Technologies on the Green Path -- 9.8.7 Importance of Integrating Digital Technologies and Green Manufacturing Practices -- 9.8.8 Challenges to Integrating Digital Technologies and Green Manufacturing Practices -- 9.8.9 Case Studies of Successful Integration of Digital Technologies and Green Manufacturing Practices -- 9.9 Future Trends in Sustainable Manufacturing -- 9.10 Emerging Digital Technologies for Sustainable Manufacturing -- 9.11 New Trends in Green Manufacturing Practices -- 9.12 Future Directions for Sustainable Manufacturing -- 9.13 Conclusion -- 9.14 Future Scope -- References -- Chapter 10 Smart Manufacturing for a Sustainable Future: A Review -- 10.1 Introduction -- 10.1.1 Smart Manufacturing for a Green Future -- 10.1.2 Green Supply Chain Management -- 10.1.3 Waste Reduction -- 10.1.4 Renewable Energy Integration -- 10.1.5 Green Product Design -- 10.1.6 Circular Economy -- 10.1.7 Water Conservation -- 10.2 Smart Manufacturing for Green Future -- 10.2.1 Energy-Efficient Equipment and Machinery -- 10.2.2 Process Optimization -- 10.2.3 Energy Management Practices -- 10.2.4 Renewable Energy Sources -- 10.3 Green Supply Chain Management. 10.4 Waste Reduction.
Record Nr.	UNINA-9911020262603321

Autore	Singh Chandan Deep
Edizione	[1st ed.]
Pubbl/distr/stampa	Newark : , : John Wiley & Sons, Incorporated, , 2025
Descrizione fisica	1 online resource (247 pages)
Altri autori (Persone)	SinghKanwaljit SinghDavinder SinghTalwinder SinghJasvinder SinghRajdeep
ISBN	1-394-16689-3 1-394-16688-5
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Cover -- Series Page -- Title Page -- Copyright Page -- Contents -- Chapter 1 Revolutionizing Transportation: A Comprehensive Review of Electricity-Run Engines -- Introduction -- Importance and Applications of Electricity-Run Engines -- Conclusion -- References -- Chapter 2 A Review of Water-Run Engines: A Sustainable Solution for Transportation -- Introduction -- Theory and Design of Water-Run Engines -- Working of Water-Run Engine -- Hydrogen Electrolysis Set Up -- Fuel Efficiency and Environmental Impact -- Environmental Impact -- Practical Applications of Water-Run Engines -- Benefits -- Current Developments in Water-Run Engines -- Future Developments in Water-Run Engines -- References -- Chapter 3 Compressed-Air-Run Engine -- Introduction -- Need for Compressed-Air-Run Engine -- Compressed-Air Energy Technology: Scope, Issues, and Opportunities -- Various Compressed-Air Engine Parts -- Working Theory -- Transmission Aspects of Compressed-Air Engines -- Outcomes -- Advantages -- Disadvantages -- Applications -- Conclusion -- References -- Chapter 4 Hybrid Electric Water Engine (Solar Charged) -- 4.1 Introduction -- 4.2 Why Hybrid? -- 4.2.1 How are Hybrid Water Air Solar-Charged Engines Different? -- 4.2.1.1 Hybrid Water Air Engines Will Have Compact Size -- 4.2.1.2 Priority to Safety -- 4.2.1.3 Commercialization of Product -- 4.3 Hybrid Water Air Engine Vehicle Structure -- 4.3.1 Types of Hybrid Engines -- 4.3.1.1 Driveline Topologies -- 4.3.1.2 Hybridization Level -- 4.3.2 Other Types of Hybrid Electric Vehicles -- 4.3.2.1 Plug-In Hybrid Electric Vehicle (PHEV) -- 4.3.2.2 Hybrid Electric Vehicles with In-Wheel Motors -- 4.4 Solar-Charged Hybrid Vehicles -- 4.5 Solar Charging System for Hybrid Engines -- 4.5.1 Types of Solar Cells -- 4.5.1.1 Flexible Solar Panels: Pros and Cons -- 4.5.1.2 Power Management -- 4.6 Conclusions -- References. Chapter 5 Hybrid Water-Air Engine -- 5.1 Introduction -- 5.2 Technical and Environmental Needs -- 5.3 Concept of Hybrid Water-Air Engines -- 5.3.1 Technology Background -- 5.3.2 Water-Air Hybrid Solution -- 5.3.2.1 Derivative Uses -- 5.3.3 Electronic Control and Measurement -- 5.4 Potential Applications and Societal Values -- 5.4.1 Effect of Water-Air Hybrid Engine on NOx Emissions -- 5.4.2 Effect of Water-Air Hybrid Engine on CO and CO2 Emissions -- 5.4.3 Effect of Water-Air Hybrid Engine on HC Emissions -- 5.5 Conclusions -- References -- Chapter 6 Hybrid Electric-Air Engine (Solar Charged) -- 6.1 Introduction -- 6.2 History of Hybrid Air Engines -- 6.2.1 History of Electric Engines (Solar Energy Operated) -- 6.3 Need for Hybrid Air Engines -- 6.3.1 Benefits of Hybrid Air Engines -- 6.4 Concept of Hybrid Air Engines -- 6.4.1 Air Engine Powered by Solar Energy -- 6.4.2 Air Compressors -- 6.4.2.1 Theoretical Modelling of Compressor Mode -- 6.5 Hybrid Solutions -- 6.5.1 The Pneumatic-Combustion Hybrid -- 6.5.2 Air Engine Hybrid -- 6.5.3 Electric and Compressed Air Hybrid Engines -- 6.6 Hybrid Engine Electrical Charged -- 6.6.1 Hybrid Electric Engine Vehicles -- 6.6.1.1 Series Hybrid Engine Vehicles -- 6.6.1.2 Parallel Hybrid Engine Vehicles -- 6.6.1.3 Plug-In Hybrid Electric Engines -- 6.7 Hybrid Air Engines Solar Charged -- 6.8 Conclusions -- References -- Chapter 7 Tribrid Engine -- Introduction -- Electric Tribrid Engine -- Types by Drivetrain Structure -- References -- Chapter 8 Analysis of Hybrid and Tribrid Engines -- 8.1 Introduction -- 8.2 Design of Hybrid Engine -- 8.3 Design of Tribrid Engine -- 8.4 Operation of Hybrid Engines -- 8.5 Operation of Tribrid Engines -- 8.6 Benefits of Hybrid Engines -- 8.7 Benefits of Tribrid Engines -- 8.8 Conclusion -- References. Chapter 9 Assessing the Impact of Tribrid Technology on Automobile Performance and Sustainability -- Introduction -- Historical Development of Hybrid and Tribid Engines -- Comparison Between Conventional Combustion Engines and Other Alternative Powertrain Technologies -- Types By Drivetrain Structure -- Series Hybrid -- Introduction to Tribrid Engine Architectures and Classifications -- Performance Analysis and Evaluation -- Performance Metrics for Hybrid and Tribrid Engines -- Conclusion -- Key Insights and Implications -- Suggestions for Further Research -- References -- Chapter 10 Exploring Future Implications for Tribrid Vehicles: Opportunities and Challenges for Sustainable Transportation -- 10.1 Introduction -- 10.2 Environmental Implications of Tribrid Vehicle -- 10.3 Energy Efficiency -- 10.4 Battery Technology -- 10.5 Hydrogen Infrastructure -- 10.6 Consumer Adoption -- 10.7 Tribrid Vehicles in Emerging Markets -- 10.8 Government Policies and Incentives for Tribrid Vehicles -- 10.8.1 Tax Incentives -- 10.9 Research and Development Grants -- 10.10 Infrastructure Investment -- 10.11 Subsidies for Fleet Vehicles -- 10.12 Emissions Regulations on Tribrid Vehicle -- 10.13 Rebates for Scrappage of Older Vehicles -- References -- Index -- Also of Interest -- EULA.
Record Nr.	UNINA-9911019156203321