Solar Electric Water and Air Tribrid Auto Engine

Singh, Chandan Deep (EDT)/ Singh, Kanwaljit (EDT)/ Singh, Davinder (EDT)

Wiley-Scrivener（2025/07発売）

• 製本 Hardcover:ハードカバー版／ページ数 256 p.
• 言語 ENG
• 商品コード 9781394166169

Full Description

Solar Electric, Water and Air Tribrid Auto Engines is a must-have for anyone in the automotive industry, as it offers a comprehensive analysis of cutting-edge technologies that could revolutionize vehicle design and fuel efficiency, paving the way for a more sustainable future.

This book analyzes the performance of solar electric, water, and air-based engines. These technologies can be combined to create the revolutionary tribrid engine that combines the three technologies to create an environmentally friendly automobile. Electric motors are known for their low emissions, and solar has the potential to amplify this ability. Water powered engines react with oxygen in the air to create fuel, causing fewer emissions and improved fuel economy. Compressed-air motors are pressure-driven, diminishing our reliance on fossil fuels. Their combined potential in the tribrid model presents revolutionary innovations for how we power automobiles. This volume provides an in-depth exploration of these technologies, providing an advanced understanding of their fundamentals and potential for combination in a tribrid model, making it essential for innovators in the automotive sector.

Contents

1 Revolutionizing Transportation: A Comprehensive Review of Electricity-Run Engines 1
Mukhtiar Singh, Maninder Singh, Harjit Singh, Jasvinder Singh and Mandeep Singh Rayat

Introduction 2

Importance and Applications of Electricity-Run Engines 3

Conclusion 30

References 31

2 A Review of Water-Run Engines: A Sustainable Solution for Transportation 33
Mukhtiar Singh, Maninder Singh, Harjit Singh, Jasvinder Singh and Mandeep Singh Rayat

Introduction 34

Theory and Design of Water-Run Engines 35

Working of Water-Run Engine 36

Hydrogen Electrolysis Set Up 37

Fuel Efficiency and Environmental Impact 38

Environmental Impact 41

Practical Applications of Water-Run Engines 42

Benefits 42

Current Developments in Water-Run Engines 43

Future Developments in Water-Run Engines 43

References 44

3 Compressed-Air-Run Engine 45
Minesh Vohra and Arjun Chopra

Introduction 46

Need for Compressed-Air-Run Engine 47

Compressed-Air Energy Technology: Scope, Issues, and Opportunities 47

Various Compressed-Air Engine Parts 48

Working Theory 50

Transmission Aspects of Compressed-Air Engines 52

Outcomes 54

Advantages 54

Disadvantages 55

Applications 56

Conclusion 57

References 57

4 Hybrid Electric Water Engine (Solar Charged) 59
Rajdeep Singh, Chandan Deep Singh and Talwinder Singh

4.1 Introduction 59

4.2 Why Hybrid? 62

4.2.1 How are Hybrid Water Air Solar-Charged Engines Different? 64

4.2.1.1 Hybrid Water Air Engines Will Have Compact Size 65

4.2.1.2 Priority to Safety 65

4.2.1.3 Commercialization of Product 65

4.3 Hybrid Water Air Engine Vehicle Structure 65

4.3.1 Types of Hybrid Engines 67

4.3.1.1 Driveline Topologies 67

4.3.1.2 Hybridization Level 67

4.3.2 Other Types of Hybrid Electric Vehicles 67

4.3.2.1 Plug-In Hybrid Electric Vehicle (PHEV) 68

4.3.2.2 Hybrid Electric Vehicles with In-Wheel Motors 68

4.4 Solar-Charged Hybrid Vehicles 68

4.5 Solar Charging System for Hybrid Engines 73

4.5.1 Types of Solar Cells 73

4.5.1.1 Flexible Solar Panels: Pros and Cons 73

4.5.1.2 Power Management 74

4.6 Conclusions 80

References 81

5 Hybrid Water-Air Engine 85
Rajdeep Singh, Chandan Deep Singh and Talwinder Singh

5.1 Introduction 85

5.2 Technical and Environmental Needs 88

5.3 Concept of Hybrid Water-Air Engines 91

5.3.1 Technology Background 93

5.3.2 Water-Air Hybrid Solution 94

5.3.2.1 Derivative Uses 97

5.3.3 Electronic Control and Measurement 97

5.4 Potential Applications and Societal Values 100

5.4.1 Effect of Water-air Hybrid Engine on Nox Emissions 102

5.4.2 Effect of Water-Air Hybrid Engine on CO and CO2 Emissions 103

5.4.3 Effect of Water-Air Hybrid Engine on HC Emissions 103

5.5 Conclusions 103

References 104

6 Hybrid Electric-Air Engine (Solar Charged) 109
Rajdeep Singh, Chandan Deep Singh and Talwinder Singh

6.1 Introduction 109

6.2 History of Hybrid Air Engines 112

6.2.1 History of Electric Engines (Solar Energy Operated) 114

6.3 Need for Hybrid Air Engines 115

6.3.1 Benefits of Hybrid Air Engines 115

6.4 Concept of Hybrid Air Engines 117

6.4.1 Air Engine Powered by Solar Energy 117

6.4.2 Air Compressors 122

6.4.2.1 Theoretical Modelling of Compressor Mode 122

6.5 Hybrid Solutions 123

6.5.1 The Pneumatic-Combustion Hybrid 123

6.5.2 Air Engine Hybrid 124

6.5.3 Electric and Compressed Air Hybrid Engines 124

6.6 Hybrid Engine Electrical Charged 125

6.6.1 Hybrid Electric Engine Vehicles 126

6.6.1.1 Series Hybrid Engine Vehicles 126

6.6.1.2 Parallel Hybrid Engine Vehicles 127

6.6.1.3 Plug-In Hybrid Electric Engines 128

6.7 Hybrid Air Engines Solar Charged 131

6.8 Conclusions 135

References 136

7 Tribrid Engine 141
Rajdeep Singh and Chandan Deep Singh

Introduction 141

Electric Tribrid Engine 142

Types by Drivetrain Structure 144

References 167

8 Analysis of Hybrid and Tribrid Engines 169
Harjit Singh, Maninder Singh, Mukhtiar Singh and Jasvinder Singh

8.1 Introduction 169

8.2 Design of Hybrid Engine 171

8.3 Design of Tribrid Engine 172

8.4 Operation of Hybrid Engines 173

8.5 Operation of Tribrid Engines 174

8.6 Benefits of Hybrid Engines 175

8.7 Benefits of Tribrid Engines 176

8.8 Conclusion 177

References 178

9 Assessing the Impact of Tribrid Technology on Automobile Performance and Sustainability 181
Mukhtiar Singh, Harjit Singh, Jasvinder Singh, Maninder Singh and Mandeep Singh

Introduction 182

Historical Development of Hybrid and Tribid Engines 183

Comparison Between Conventional Combustion Engines and Other Alternative Powertrain Technologies 184

Types By Drivetrain Structure 187

Series Hybrid 187

Introduction to Tribrid Engine Architectures and Classifications 192

Performance Analysis and Evaluation 196

Performance Metrics for Hybrid and Tribrid Engines 196

Conclusion 208

Key Insights and Implications 209

Suggestions for Further Research 209

References 210

10 Exploring Future Implications for Tribrid Vehicles: Opportunities and Challenges for Sustainable Transportation 213
Maninder Singh, Mukhtiar Singh, Harjit Singh and Jasvinder Singh

10.1 Introduction 214

10.2 Environmental Implications of Tribrid Vehicle 214

10.3 Energy Efficiency 216

10.4 Battery Technology 217

10.5 Hydrogen Infrastructure 218

10.6 Consumer Adoption 219

10.7 Tribrid Vehicles in Emerging Markets 220

10.8 Government Policies and Incentives for Tribrid Vehicles 220

10.8.1 Tax Incentives 220

10.9 Research and Development Grants 221

10.10 Infrastructure Investment 222

10.11 Subsidies for Fleet Vehicles 223

10.12 Emissions Regulations on Tribrid Vehicle 224

10.13 Rebates for Scrappage of Older Vehicles 225

References 226

Index 229