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1. | EXECUTIVE SUMMARY |
1.1. | The Importance of Electric Two-wheelers |
1.2. | Electric Two-wheeler Classification |
1.3. | Electric Two-wheelers Unit Sales 2015-2041 |
1.4. | Li-ion & Lead-acid Battery Demand 2015-2041 (GWh) |
1.5. | Battery Chemistry Choices |
1.6. | Electric Two-wheelers Market Size 2015-2041 ($ billion) |
1.7. | Where's the Money in 2020, Where it Will be in 2041 |
2. | INTRODUCTION |
2.1. | Electric Vehicle Terms |
2.2. | Electric Vehicles: Basic Principle |
2.3. | Low Maintenance |
2.4. | Electric Two-wheelers: Power Classes |
2.5. | Two-wheelers vs. Other Electric Vehicles |
2.6. | Electric Two-wheeler Voltage Characteristics |
2.7. | Electric Two-wheelers Over 4kW |
2.8. | Electric Two-wheelers: Drivers |
2.9. | High Pollution and Oil Imports Drive Electrification |
2.10. | Electric Two-wheelers: Drivers |
2.11. | No noise: good or bad? |
2.12. | Electric Motorcycle Performance |
2.13. | Barriers for Electric Two-wheelers |
2.14. | Fossil Fuel Bans: Explained |
2.15. | Official or Legislated Fossil Fuel Bans |
2.16. | Unofficial, Drafted or Proposed Fossil Fuel Bans |
2.17. | Debunking EV Myths: Emissions Just Shift to Electricity Generation? |
2.18. | Hybrid Two-wheelers |
2.19. | Hybrid Two-wheelers: Historic Failures |
2.20. | Honda: PCX Hybrid Scooter |
3. | CHINA |
3.1. | Car Sales and Two-wheeler Sales in China |
3.2. | How Chinese Two-wheelers are Different |
3.3. | What's Driving Electrification in China? |
3.4. | Regulation History & Safety Concerns |
3.5. | China's Current Two-wheeler Policy (April 2019) |
3.6. | E2W Bans in China |
3.7. | E2W in China: The Party's Over |
3.8. | Rise of Li-ion in Chinese Electric Two-wheelers |
3.9. | Why is Lead-acid Production Rising? |
3.10. | Li-ion OEM Market Share |
3.11. | Chinese Electric Two-wheeler Prices |
4. | INDIA |
4.1. | India: Transportation Diversity |
4.2. | Mobility Trends in India |
4.3. | The World's Largest Moto Market |
4.4. | Emissions Regulation |
4.5. | Incumbent Moto Market Shares FY20 |
4.6. | High Pollution and Oil Imports Drive Electrification |
4.7. | New Delhi: Pollution Equal to 50 Cigarettes a Day |
4.8. | India Moto Market Forecast |
4.9. | India: Historic E2W Market Growth |
4.10. | India: Flawed Electric Vehicle Policy |
4.11. | FAME in FY19: Low-speed Impact |
4.12. | Electrification Target Confusion |
4.13. | Electric OEM Market Shares |
4.14. | Rise of Li-ion in India |
4.15. | Gigafactories in India |
4.16. | India Li-ion Battery Pack Chemistry & Price Forecast |
4.17. | Performance Parity |
4.18. | Hero Electric Models |
4.19. | List of EV Startups in India |
4.20. | Ather Energy |
4.21. | E-motion - Surge |
4.22. | 22Motors - Flow |
4.23. | Harley Davidson Failure |
4.24. | Bajaj Auto Chetak |
4.25. | IDTechEx Portal Profiles |
5. | US |
5.1. | The US Moto Market |
5.2. | US Electric Motorcycle Forecast |
5.3. | Incentives for Electric Two-wheelers |
5.4. | Zero-emission Motorcycles in the US |
5.5. | US Electric Motorcycle OEM Market Shares |
5.6. | Electric Scooters in the US |
5.7. | GenZe |
5.8. | Electric Motorcycles in California |
5.9. | Zero Motorcycles |
5.10. | Zero Motorcycle's Technology |
5.11. | Increasing Battery Capacity |
5.12. | New Sources of Growth in a Stagnating Industry |
5.13. | Alta Motors: A Cautionary Tale |
6. | EUROPE |
6.1. | The European Moto Market |
6.2. | European Two-wheeler Classification |
6.3. | Historic Electric Two-wheeler Sales in Europe |
6.4. | European Electric Two-wheeler Forecast 2015-2041 |
6.5. | Govecs |
6.6. | Vespa Elettrica |
6.7. | Kymco |
6.8. | Valeo's 48V Scooter Powertrain |
6.9. | Continental's 48V Scooter Powertrain |
6.10. | BMW C Evolution |
6.11. | Volta |
6.12. | Electric Motion |
6.13. | Energica |
6.14. | IV Electrics |
6.15. | KTM |
7. | SOUTH-EAST ASIA |
7.1. | Indonesia: Historic Motorcycle Sales |
7.2. | Indonesia: Electric Two-wheeler Forecast |
7.3. | Indonesia: Case Study |
7.4. | Garansindo |
7.5. | Indonesia: Honda Pilot |
7.6. | Vietnam: Historic Motorcycle Sales |
7.7. | Vietnam: Takuda Motor |
8. | REST OF WORLD MARKETS |
8.1. | Taiwan: Historic Motorcycle Sales |
8.2. | Gogoro |
8.3. | Battery Swapping |
8.4. | China Motor Corp |
8.5. | Kymco (versus Gogoro) |
9. | ENERGY STORAGE |
9.1. | Li-ion |
9.1.1. | What is a Li-ion battery? |
9.1.2. | The Battery Trilemma |
9.1.3. | Lithium-based Battery Family Tree |
9.1.4. | More Than One Type of Li-ion battery |
9.1.5. | Cathode Performance Comparison |
9.1.6. | The Promise of Silicon-based Anodes |
9.1.7. | The Reality of Silicon |
9.1.8. | Silicon: Incremental Steps |
9.1.9. | What is in a Cell? |
9.1.10. | Inactive Materials Negatively Affect Energy Density |
9.1.11. | Commercial Battery Packaging Technologies |
9.1.12. | Comparison of Commercial Cell Geometries |
9.1.13. | Electric Two-wheeler Cells |
9.1.14. | Farasis |
9.2. | Fuel Cells |
9.2.1. | Proton Exchange Membrane Fuel Cells |
9.2.2. | Fuel Cell Inefficiency and Cooling Methods |
9.2.3. | Challenges for Fuel Cells |
9.2.4. | Grey Hydrogen |
9.2.5. | Case Study: Hydrogen Costs |
9.2.6. | Infrastructure Costs |
9.2.7. | Fuel Cell Charging Infrastructure in the US |
9.2.8. | Fuel Cost per Mile: FCEV, BEV, internal-combustion |
9.2.9. | Fuel Cell Electric Two-wheelers |
10. | ELECTRIC MOTORS |
10.1. | Electric Traction Motors: Introduction |
10.2. | Brushless DC Motors (BLDC): Working Principle |
10.3. | BLDC Motors: Advantages, Disadvantages |
10.4. | BLDC Motors: Benchmarking Scores |
10.5. | Permanent Magnet Synchronous Motors (PMSM): Working Principle |
10.6. | PMSM: Advantages, Disadvantages |
10.7. | PMSM: Benchmarking Scores |
10.8. | Permanent Magnet Assisted Reluctance (PMAR) |
10.9. | PMAR Motors: Benchmarking Scores |
10.10. | Comparison of Traction Motor Construction and Merits |
10.11. | Motor Efficiency Comparison |
10.12. | Magnet Price Increase Risk |
10.13. | Motor Technologies in Two-wheelers |
10.14. | Component developers for electric two wheelers |
10.15. | Motorcycles Have Unique Requirements |
10.16. | Electric Motorcycles |
10.17. | Magalec: electric motors for racing bikes |
10.18. | Overview of Electric Motor Market Share (2019) |
11. | FORECASTS: METHODOLOGY, ASSUMPTIONS, DATA |
11.1. | Forecast Assumptions |
11.2. | Forecast Methodology |
11.3. | FAQ on the Forecasts |
11.4. | Electric Two-wheelers Unit Sales 2015-2041 |
11.5. | Unit Forecast Data by Region 2015-2041 |
11.6. | Li-ion & Lead-acid Battery Demand 2015-2041 (GWh) |
11.7. | GWh Forecast Data 2015-2041 |
11.8. | Li-ion & Lead-Acid GWh Forecast Data 2015-2041 |
11.9. | Electric Two-wheelers Market Size 2015-2041 ($ billion) |
11.10. | $ Billion Forecast Data 2015-2041 |
幻灯片 | 181 |
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预测 | 2041 |
ISBN | 9781913899257 |