Market for medium and heavy-duty electric trucks to reach US$207 billion by 2044
Electric and Fuel Cell Trucks 2024-2044: Markets, Technologies, and Forecasts
Electric, hybrid and hydrogen fuel cell powertrains. Analysis of the medium and heavy-duty BEV, PHEV and FCEV truck markets. Granular 20-year forecasts by regions. Key enabling technologies: Li-ion batteries, electric motors, fuel cells and charging infra
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Electric and Fuel Cell Trucks 2024-2044: Markets, Technologies, and Forecasts
The rapidly growing market for zero-emission trucks is analyzed in the IDTechEx Electric and Fuel Cell Trucks 2024-2044 report, which covers hydrogen fuel cell, plug-in hybrid, and battery electric vehicle technologies. The report covers the technical and economic aspects of the deployment of zero-emission trucks and presents IDTechEx's granular forecasts for the deployment of medium- and heavy-duty zero-emission trucks through 2044, with an emphasis on the three major markets: Europe, the United States, and China.
Even though the fleet of medium- and heavy-duty trucks makes up less than 10% of all on-road vehicles worldwide, the truck industry is responsible for around 40% of the greenhouse gas emissions produced by the global transportation sector due to its big diesel engines and high average yearly mileage. This is equivalent to 5.1% of all CO2 emissions produced worldwide by burning fossil fuels. Trucks are a target for governments because of their disproportionate emissions output. The truck industry needs to decarbonize quickly if the world is to fulfil its targets for reducing greenhouse gas emissions and mitigating the effects of climate change. As a result, the days of trucks with combustion engines fueled by fossil fuels are numbered.
Governments everywhere are acting decisively, tightening regulations on exhaust emissions and establishing timelines for reaching net zero emissions as a result of realizing the potentially disastrous effects of unchecked climate change and the harmful effects that vehicle exhaust pollutants have on human health when they are released into urban environments. This will push vehicle makers to develop zero-emission powertrain technologies in the next decades. The commitment to this shift from OEMs and suppliers is growing.
Major developments in truck electrification
In 2023, the electrification of trucks has seen notable advancements, albeit not at the expected pace. While battery-electric Class 8 (>15 tonnes) trucks have not yet dominated the market, there is a consensus that battery electric trucks are suitable for most use cases, especially in the short haul and defined route applications. Today, almost all OEMs either have a battery electric model in series production or are committed to starting production within the next year. Supply chains are maturing, and major tier 1 suppliers are putting substantial resources into parts electrification and shifting focus away from traditional combustion engine powertrains.
Zero-emission Medium and Heavy-Duty Trucks by Technology and Production Status
Source: IDTechEx Electric and Fuel Cell Trucks 2024-2044
Knowing the daily duty cycle energy requirement is essential for the deployment of battery electric trucks. Due to the high cost of battery packs, optimization that reduces the size of the installed battery while still providing a full day's operation is likely to be the most cost-effective solution. Numerous OEMs provide advisory services, assisting customers in analyzing the energy requirements of their everyday operations so that the vehicle and charging infrastructure can be customized to meet those needs. Customers can select the ideal vehicle for their needs with the aid of modular battery options and an assortment of electric motor sizes. Collaboration with consumers is essential for the effective deployment of these early-generation battery electric trucks (BEV).
Despite long-range potential, fuel cell trucks face deployment obstacles
While the market for battery electric vehicles is expanding, the energy density and specific energy of current lithium-ion battery technologies may limit the range of battery electric trucks by both the maximum weight of batteries that a truck can carry and the available space for batteries within that vehicle. Truck manufacturers now have a way to increase range while maintaining the critical decrease in on-road exhaust emissions thanks to fuel cell technologies. Although the technology shows promise, it will be difficult to lower system costs and implement enough infrastructure for hydrogen refueling to make driving a fuel cell electric vehicle (FCEV) practical. The availability of affordable low-carbon 'green' hydrogen, as highlighted in this IDTechEx report, will also be critical to FCEVs providing the environmental credentials on which they are promoted.
Needed infrastructure for heavy-duty charging and refueling
Early electric trucks have relied on charging infrastructure designed for light-duty vehicles, but more powerful standards are ready for commercialization and will unlock new applications. Wired stationary charging options range from AC slow with power below 43 kilowatts (kW) to DC fast charging with power up to 350 kW. Higher power standards covered within this report are getting ready for commercial rollout in 2024. ChaoJi in China will deliver up to 900 kW and CharIN's MegaWatt Charging System (MCS) in Europe and North America could deliver up to 3.75 megawatts (MW). Long haul truck applications where considerable amounts of energy is needed to be replenished in short, mandated stops are looking to such standards as enabling solutions. The alternative is hydrogen fuel-cell trucks, which will require a network of hydrogen refueling stations, along with the development of hydrogen generation and transport infrastructure. It is worth emphasizing that for short urban duty-cycles, which do not deplete an electric truck's battery over a day's operation, low power AC depot charging should be enough for most vehicles to recharge the battery overnight.
The report discusses the drivers and barriers to zero-emission truck deployment, including total cost of ownership considerations. It presents analysis of ongoing OEM and supplier development work and their goals for zero-emission truck deployment, with case-study detail about battery electric and fuel cell electric truck projects being undertaken by the major players in the industry. The report contains detailed investigation of key enabling technologies for zero-emission truck deployment such as batteries, motors, fuel cells, charging infrastructure and hydrogen combustion engines.
The IDTechEx Electric and Fuel Cell Trucks 2024-2044 report is designed to help businesses across the truck sector plan for the future in this dynamic market. The report provides 80 forecast lines for battery electric, plug-in hybrid and fuel cell electric trucks, giving a twenty-year outlook for truck sales, battery demand, fuel cell demand and market value, with separate forecasts for both the medium and heavy-duty truck markets. This report is intended for companies across the automotive value chain including truck OEMs, parts and systems suppliers, battery and fuel cell manufacturers, electric charging / hydrogen refueling infrastructure developers, truck fleet operators, government agencies, research organizations, and banks financing zero-emission truck deployment.
Key aspects
- Zero-emission medium and heavy-duty truck OEM analysis, suppliers
- Drivers and barriers to zero-emission truck deployment
- TCO considerations for battery electric and fuel cell trucks
- Key enabling technologies: batteries and motors (including e-axles)
- Heavy-duty charging infrastructure (including megawatt charging)
- Hydrogen fuel cells / hydrogen combustion
Market Forecasts & Analysis:
- 20-year granular market forecasts (2024-2044) for battery electric trucks, fuel cell electric trucks and plug-in hybrid electric trucks
- Unit sales (units), battery demand (GWh), and market revenue (US$ Billions), and fuel cell demand (MW)
- Regional forecasts for China, the US, Europe (EU + UK +EFTA) and RoW
- Separate forecast lines for medium and heavy-duty trucks
| Report Metrics | Details |
|---|---|
| Historic Data | 2019 - 2022 |
| CAGR | The market for electric trucks will surpass $207 billion by 2044 exhibiting a CAGR of 15.4% for the period 2024-2044. |
| Forecast Period | 2023 - 2044 |
| Forecast Units | Sales (Units), Battery demand (GWh), Market size ($USD Billion), Fuel cell demand (MW) |
| Regions Covered | Worldwide |
| Segments Covered | Medium-Duty Trucks, Heavy-Duty Trucks Battery Electric Trucks, Fuel Cell Electric Trucks, Plug-in Hybrid Electric Trucks. Regions: Global, China, US, Europe (EU+UK+EFTA), RoW. |
Analyst access from IDTechEx
All report purchases include up to 30 minutes telephone time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.
Further information
If you have any questions about this report, please do not hesitate to contact our report team at research@IDTechEx.com or call one of our sales managers:
ASIA: +82 10 3896 6219
| 1. | EXECUTIVE SUMMARY |
| 1.1. | Report Overview |
| 1.2. | Trucks are Capital Goods |
| 1.3. | The Rise of Zero Emission Trucks |
| 1.4. | Key Report Findings (1) |
| 1.5. | Key Report Findings (2) |
| 1.6. | Recovery from Coronavirus: Addressable Truck Market 2019-2022 |
| 1.7. | Zero Emission Trucks: Drivers and Barriers |
| 1.8. | Fuel consumption, CO2 and GHG standards |
| 1.9. | Range of Zero Emission M&HD Trucks: Vehicle Weight vs Range |
| 1.10. | Regional Model Availability 2021-2024 |
| 1.11. | Leading Global E-Truck Manufacturer Sales 2021- H1 2023 |
| 1.12. | BEV and FCEV M&HD Trucks: Weight vs Battery Capacity |
| 1.13. | BEV and FCEV M&HD Trucks: Weight vs Motor Power |
| 1.14. | What do Electric Trucks Need to Deliver |
| 1.15. | Duty Cycle Energy Considerations |
| 1.16. | BEV Trucks Already Offer Sufficient Range |
| 1.17. | Heavy-Duty Trucks: BEV or Fuel Cell? |
| 1.18. | Green H2 for FCEV Trucks to be 'Green' |
| 1.19. | System Efficiency Between BEVs and FCEVs |
| 1.20. | 5-year TCO ICE, BEV, FCEV, H2-ICE |
| 1.21. | Charging Solutions for Heavy Duty Fleet: High Level Findings |
| 1.22. | Medium & Heavy-Duty Truck Global Sales 2019-2044 |
| 1.23. | M&HDT Global Sales: BEV, PHEV and FCEV 2020-2044 |
| 1.24. | eM&HDT Battery Demand Forecast (GWh) 2020-2044 |
| 1.25. | eM&HDT Sales by Region 2019-2044 |
| 1.26. | eM&HDT Market Forecast (US$ billion) 2020-2044 |
| 1.27. | Forecast Commentary |
| 1.28. | Portal Company Background Profiles (for report) |
| 2. | TRUCK DEFINITIONS |
| 2.1. | Electric Vehicle Definitions |
| 2.2. | Truck Weight Definitions |
| 2.3. | Truck Type |
| 2.4. | Truck Axle Layout Descriptions |
| 3. | DRIVERS FOR ZERO-EMISSION |
| 3.1. | Main Driver for Sector Decarbonization |
| 3.2. | Greenhouse Gas (GHG) Emission |
| 3.3. | GHG Emission: China, U.S. & Europe |
| 3.4. | CO2 Emission: Medium & Heavy-Duty Trucks 2022 |
| 3.5. | EU27+UK GHG Emission by Sector |
| 3.6. | Europe Road Transport GHG Emission |
| 3.7. | U.S. Transport Related GHG Emission |
| 3.8. | U.S. Road Transport GHG Emission |
| 3.9. | GHG Emission From The Truck Sector |
| 3.10. | CO2 Emission from Electricity Generation |
| 3.11. | Urban Air Quality |
| 3.12. | Urban Air Quality |
| 3.13. | Fossil Fuel Bans in Cities |
| 3.14. | Emission Regulation for New Trucks |
| 3.15. | Heavy-Duty Emission Standards |
| 3.16. | Fuel / CO2 Regulation for New Trucks |
| 3.17. | Fuel Saving Technology Areas |
| 3.18. | Fossil Fuel Bans |
| 3.19. | OEMs Endorse Transition to Zero-Emission |
| 3.20. | OEM Statements |
| 3.21. | What do Electric Trucks Need to Deliver |
| 3.22. | Zero Emission Truck Considerations |
| 4. | TCO CONSIDERATIONS |
| 4.1. | Total Cost of Ownership |
| 4.2. | TCO Considerations: Zero Emission Trucks |
| 4.3. | TCO Considerations: Battery Pack Cost |
| 4.4. | Zero Emission Tractor Truck Cost Breakdown |
| 4.5. | Truck Price Forecast by Powertrain |
| 4.6. | BEV Truck Fuel Cost Savings |
| 4.7. | Electric Trucks Reduced Operating Costs |
| 4.8. | Overcoming Barriers for Zero Emission Trucks |
| 4.9. | More Carrot, More Stick |
| 4.10. | Powertrain CAPEX Costs |
| 4.11. | 5-year TCO ICE, BEV, FCEV, H2-ICE |
| 4.12. | TCO FCEV Trucks vs Battery Electric |
| 4.13. | TCO FCEV Trucks vs Battery Electric |
| 4.14. | TCO FCEV Trucks vs Battery Electric |
| 4.15. | TCO FCEV Trucks vs Battery Electric |
| 4.16. | External Cost of Heavy-Duty Trucks |
| 5. | EUROPEAN TRUCK MARKET |
| 5.1.1. | Europe: Addressable Truck Market 2022 |
| 5.1.2. | Europe: Addressable Truck Market 2021 |
| 5.1.3. | Europe: Addressable Truck Market 2020 |
| 5.1.4. | Medium and Heavy-Duty Truck Sales in Europe Upto Q3 2023 |
| 5.1.5. | Average European Diesel Price 2023 |
| 5.1.6. | EU 2030: 45% Cut in Truck CO2 Emissions |
| 5.1.7. | Financial Driver: Legislation in Europe |
| 5.1.8. | Powertrain and Range |
| 5.1.9. | OEMs Combine on Charging Infrastructure |
| 5.1.10. | Milence: public truck charging network |
| 5.2. | European e-Truck Players |
| 5.2.1. | European Electric Truck Sales 2016-2022 |
| 5.2.2. | Europe BEV Truck Sales by Country |
| 5.2.3. | Volvo Trucks FE and FL Electric |
| 5.2.4. | Volvo Trucks VERA |
| 5.2.5. | Volvo FM, FMX and FH Electric |
| 5.2.6. | Volvo Trucks Battery |
| 5.2.7. | VOLVO Group Electric Truck Sales Progress 2020-2023 Q2 |
| 5.2.8. | Renault Trucks (Volvo Group) |
| 5.2.9. | Renault Trucks D Wide Z.E. |
| 5.2.10. | Renault BEV Refuse Truck at EVS 32 |
| 5.2.11. | Mercedes-Benz (Daimler) eMobility |
| 5.2.12. | Mercedes-Benz (Daimler) eActros |
| 5.2.13. | Mercedes-Benz eActros 600 |
| 5.2.14. | Daimler eActros "Innovation Fleet" |
| 5.2.15. | FUSO eCanter (Daimler / Mitsubishi) |
| 5.2.16. | DAF (PACCAR) CF |
| 5.2.17. | DAF (PACCAR) LF |
| 5.2.18. | DAF (PACCAR) CF Hybrid |
| 5.2.19. | DAF (PACCAR) XD and XF |
| 5.2.20. | TRATON GROUP Electric Truck Sales Progress 2022 |
| 5.2.21. | Scania (TRATON) BEV Urban Truck |
| 5.2.22. | Scania (TRATON) BEV Long-Haul Truck |
| 5.2.23. | Scania (TRATON) PHEV Truck |
| 5.2.24. | Scania (TRATON) |
| 5.2.25. | MAN (TRATON) eTGM |
| 5.2.26. | MAN (TRATON) e-Truck |
| 5.2.27. | MAN (TRATON) eTGS/eTGX |
| 5.2.28. | Futuricum Electric Concrete Mixer Truck |
| 5.2.29. | Other European Electric Trucks |
| 6. | U.S. TRUCK MARKET |
| 6.1.1. | US: Addressable Truck Market 2022 |
| 6.1.2. | Main Truck Brands in the US 2022 |
| 6.1.3. | US: Addressable Truck Market 2021 |
| 6.1.4. | US: Addressable Truck Market 2020 |
| 6.1.5. | U.S. New Truck Sales by Class 2017-2022 |
| 6.1.6. | U.S. Truck Sales by OEM Brand 2022 |
| 6.1.7. | Medium and Heavy-Duty Truck Sales in the U.S. 2015-2023 H1 |
| 6.1.8. | U.S. Annual Truck Market Sales |
| 6.1.9. | U.S. Average Truck Replacement Age 2016-2022 |
| 6.1.10. | U.S. Truck Fleet Statistics 2007-2021 |
| 6.1.11. | Average U.S. On-Highway Diesel Price 2000-2023 |
| 6.1.12. | Operational Costs for US Truckers 2010-2022 |
| 6.1.13. | Rising Truck Fuel Costs 2015-2023 |
| 6.1.14. | U.S. Uptake of Alternative Fuel Trucks |
| 6.1.15. | The Future: Electric, Autonomous Trucks? |
| 6.1.16. | U.S. GHG Emission Policy |
| 6.1.17. | California's Advanced Clean Trucks (ACT) Regulation |
| 6.1.18. | California's Advanced Clean Trucks (ACT) Regulation |
| 6.1.19. | CARB Voucher Incentive Project |
| 6.1.20. | California's Advanced Clean Fleet (ACF) Regulation |
| 6.1.21. | State Support for e-Truck Deployment |
| 6.1.22. | U.S. Companies Urge Faster Adoption |
| 6.2. | U.S. e-Truck Players |
| 6.2.1. | U.S. Electric Truck Sales 2016-2022 |
| 6.2.2. | U.S. Zero Emission Truck Deployments by Segment |
| 6.2.3. | Significant Market for BEV Trucks |
| 6.2.4. | U.S. Electric Truck Major OEMs |
| 6.2.5. | Freightliner (DAIMLER) eM2 |
| 6.2.6. | Freightliner (DAIMLER) eCascadia |
| 6.2.7. | Freightliner (DAIMLER) Battery Packs |
| 6.2.8. | Freightliner Custom Chassis |
| 6.2.9. | Daimler Invest in Charging Infrastructure |
| 6.2.10. | Peterbilt (PACCAR) 220EV |
| 6.2.11. | Peterbilt (PACCAR) 579EV |
| 6.2.12. | Peterbilt (PACCAR) 520EV |
| 6.2.13. | Kenworth (PACCAR) T680E |
| 6.2.14. | Kenworth (PACCAR) K270E / K370E |
| 6.2.15. | Volvo Trucks North America VNR Electric |
| 6.2.16. | Mack Trucks (Volvo) LRe |
| 6.2.17. | Mack Trucks (Volvo) MD Electric |
| 6.2.18. | Volvo, Mack Electric Truck Recalls 2023 |
| 6.2.19. | Navistar (VW Group) International eMV |
| 6.2.20. | BYD 8TT Electric Tractor |
| 6.2.21. | BYD 8TT Electric Tractor |
| 6.2.22. | Tesla Semi |
| 6.2.23. | Isuzu / Cummins F-Series |
| 6.2.24. | Isuzu N-Series |
| 6.2.25. | Small OEMs / Component Integrators |
| 6.2.26. | Xos Trucks |
| 6.2.27. | Xos Trucks |
| 6.2.28. | Nikola |
| 6.2.29. | Motiv Power Systems |
| 6.2.30. | Motiv Power Systems |
| 6.2.31. | SEA Electric |
| 6.2.32. | SEA Electric |
| 6.2.33. | Lion Electric |
| 6.2.34. | Lion Electric |
| 6.2.35. | Other U.S. Class 4 Electric Trucks |
| 6.2.36. | Other U.S. Class 5 Electric Trucks |
| 6.2.37. | Other U.S. Class 6 Electric Trucks |
| 6.2.38. | Other U.S. Class 7 / 8 Electric Trucks |
| 6.2.39. | Hyliion Natural Gas Electric PHEV |
| 6.2.40. | Electric Terminal Tractors |
| 7. | CHINESE TRUCK MARKET |
| 7.1.1. | China: Addressable Truck Market 2022 |
| 7.1.2. | China: Addressable Truck Market 2021 |
| 7.1.3. | China: Addressable Truck Market 2020 |
| 7.1.4. | Addressable M&HD Truck Sales in China 2007-2022 |
| 7.1.5. | Road Freight Demand in China 2007-2021 |
| 7.1.6. | China's Truck Market Segments |
| 7.1.7. | Example Chinese Truck Joint Ventures |
| 7.1.8. | China Phasing Out EV Subsidies |
| 7.2. | Chinese e-Truck Players |
| 7.2.1. | China Heavy-Duty Electric Truck Sales 2020-2023 H1 |
| 7.2.2. | Electric Heavy-Duty Truck Market in China |
| 7.2.3. | Electric Heavy-Duty Truck Sales in China H1 2023 |
| 7.2.4. | Battery Swapping in the Chinese Electric Truck Market |
| 7.2.5. | Chinese Battery Swapping Dump Trucks |
| 7.2.6. | Sany Electric Dump Trucks |
| 7.2.7. | BYD Electric Dump Trucks For Shenzhen |
| 7.2.8. | Chinese Battery Swapping Dump Trucks |
| 7.2.9. | Chinese OEMs Electric Mixer Trucks |
| 7.2.10. | GEELY |
| 7.2.11. | China's heavy duty swapping industry 2022 |
| 7.2.12. | The Rise of Battery Swapping in China 2021-2023 H1 |
| 8. | BENCHMARKING US / EU OEMS |
| 8.1. | Volvo Trucks |
| 8.2. | Daimler Trucks & Buses |
| 8.3. | BYD |
| 8.4. | PACCAR |
| 8.5. | Traton Group |
| 8.6. | TESLA |
| 8.7. | CNH Industrial / IVECO / Nikola |
| 8.8. | European Truck OEMs Electrification Readiness in 2023 |
| 9. | BATTERY TECHNOLOGY |
| 9.1.1. | Electrochemistry Definitions |
| 9.1.2. | What is a Li-ion Battery? |
| 9.1.3. | Cell Types |
| 9.1.4. | Cell Format Comparison |
| 9.1.5. | BEV cell form factors |
| 9.1.6. | BEV cell energy density trends |
| 9.1.7. | Chemistry energy density comparison |
| 9.1.8. | Comparing commercial cell chemistries |
| 9.1.9. | Li-ion Timeline Commentary |
| 9.1.10. | Types of Lithium Battery |
| 9.1.11. | Battery Technology Comparison |
| 9.1.12. | Li-ion Batteries: From Cell to Pack |
| 9.1.13. | Role of Battery Pack Manufacturers |
| 9.2. | Battery Pack Players |
| 9.2.1. | Developments in Pack Manufacturers |
| 9.2.2. | Acquisitions of Pack Manufacturers |
| 9.2.3. | Module and Pack Manufacturing Process |
| 9.2.4. | List of Battery Pack Manufacturers - Europe |
| 9.2.5. | Europe Battery Pack Manufacturers and Target Sectors |
| 9.2.6. | List of Battery Pack Manufacturers - North America |
| 9.2.7. | North American Battery Pack Manufacturers and Target Sectors |
| 9.2.8. | Asian module and pack manufacturers |
| 9.2.9. | Battery pack/module comparison |
| 9.2.10. | Battery Pack Benchmarking: Specific Energy vs Energy Density |
| 9.2.11. | BorgWarner (Akasol) battery packs |
| 9.2.12. | Akasol AKASYSTEM |
| 9.2.13. | Proterra |
| 9.2.14. | Webasto |
| 9.2.15. | Cummins (Accelera) |
| 9.2.16. | Microvast |
| 9.2.17. | Microvast Technology |
| 9.2.18. | American Battery Solutions |
| 9.2.19. | Leclanche |
| 9.2.20. | Northvolt Voltpack Core |
| 9.2.21. | Forsee Power |
| 9.2.22. | Deutz AG |
| 10. | BATTERY CHOICE FOR E-TRUCKS |
| 10.1. | LFP or High-Nickel Cathodes for e-Trucks? |
| 10.2. | E-Truck OEM Battery Chemistry Choice |
| 10.3. | Heavy-Duty Battery Choice: Range & Payload |
| 10.4. | Heavy-Duty Battery Choice: Charging |
| 10.5. | Heavy-Duty Battery Choice: Reliability |
| 10.6. | Supply Chain: In-House Pack Assembly |
| 10.7. | Chemistry Choices in Turnkey EV Packs |
| 10.8. | Truck Battery Chemistry Examples |
| 10.9. | Timeline and Outlook For Li-ion Energy Densities |
| 11. | HEAVY-DUTY CHARGING |
| 11.1.1. | Charging Infrastructure Critical to Deployment |
| 11.1.2. | Overview of Charging Levels |
| 11.1.3. | Charging: Depot & Opportunity Charging |
| 11.1.4. | Charging Infrastructure For Heavy-Duty Vehicles |
| 11.1.5. | Cost per kW of Installing Chargers |
| 11.1.6. | Fleet Charging Dependant on Use Case and Vehicle Class |
| 11.1.7. | Megawatt charging impacts on commercial vehicle system voltage |
| 11.2. | Conductive Charging |
| 11.2.1. | Megawatt Charging |
| 11.2.2. | Why Megawatt Charging is Important |
| 11.2.3. | MCS Specifications and Comparison |
| 11.2.4. | MCS Power Levels |
| 11.2.5. | MCS Charging Connector |
| 11.2.6. | Challenges in Implementing MCS |
| 11.2.7. | Challenges in Brining MCS to Scale |
| 11.2.8. | MCS Player Landscape |
| 11.2.9. | List of MW Charging Projects |
| 11.2.10. | Megawatt Charging in China |
| 11.2.11. | Grid Impacts of MW Charging |
| 11.2.12. | MW Charging Market Rollout in 2024 |
| 11.2.13. | Megawatt class chargers forecast |
| 11.2.14. | Daimler Truck Commercial EV Charging Park |
| 11.2.15. | Tesla Debut Megacharger |
| 11.2.16. | Tesla High Power Charging Solutions |
| 11.2.17. | Detroit eFill Chargers |
| 11.2.18. | Heliox: Public Transport & Heavy-Duty Vehicle Charging |
| 11.2.19. | Heliox's 13 MW Charging Network for Electric Buses |
| 11.2.20. | SprintCharge: Battery-Buffered Charging |
| 11.2.21. | ABB's Depot Charging Solutions |
| 11.2.22. | ABB's 600 kW TOSA Flash-Charging |
| 11.2.23. | Siemens: Truck Charging Infrastructure |
| 11.2.24. | Siemens Autonomous Charging System |
| 11.2.25. | Summary of Commercial Electric Fleet Wired DC Charging Options |
| 11.3. | Inductive Charging |
| 11.3.1. | Resonant Inductive Coupling - The Principle Behind Wireless EV Charging |
| 11.3.2. | Wireless charging overview |
| 11.3.3. | Inductive Charging for Heavy-Duty Applications |
| 11.3.4. | Momentum Dynamics: High-Power Wireless Charging |
| 11.3.5. | Case Study: Wireless Charging for Electric Bus Fleets |
| 11.3.6. | WAVE - Wireless Charging for Electric Buses |
| 11.3.7. | WAVE Wireless Charging Impact on Vehicle Cost |
| 11.3.8. | Dynamic Wireless Charging Remains Experimental |
| 11.3.9. | Dynamic Charging Trials Underway |
| 11.4. | Battery Swapping |
| 11.4.1. | The Rise of Battery Swapping in China |
| 11.4.2. | Battery-Swapping Truck Market Share In China 2023 |
| 11.4.3. | Mounting Swappable Batteries in Trucks |
| 11.4.4. | Chinese Battery Swapping BEV Trucks |
| 11.4.5. | TU Berlin Test Robotic Battery Swapping |
| 11.4.6. | Sany Debut Battery Swapping Station |
| 11.5. | Electric Road Systems (ERS) |
| 11.5.1. | Types of Electric Road Systems |
| 11.5.2. | Configuration of ERS Infrastructure |
| 11.5.3. | Benefits of ERS |
| 11.5.4. | Siemens eHighway |
| 11.5.5. | Electric Road Systems: Sweden |
| 11.5.6. | Californian Electric Highway |
| 11.5.7. | UK Government Investigating E-Highways |
| 11.5.8. | Volvo Conductive Rail Testing |
| 11.5.9. | Real World Testing |
| 11.5.10. | Electric Road Systems: Market and Challenges |
| 11.5.11. | Summary of Electric Road Systems |
| 11.5.12. | Charging Solutions for Heavy Duty Fleet: High Level Findings |
| 12. | ELECTRIC MOTORS |
| 12.1. | Summary of Traction Motor Types |
| 12.2. | Comparison of Traction Motors |
| 12.3. | Medium Duty Truck Models Motor Power |
| 12.4. | Heavy Duty Truck Models Motor Power |
| 12.5. | Truck Motor Type Market Share and Power Output Requirements |
| 12.6. | Integrated e-Axle Space Advantage |
| 12.7. | Dana E-Axles |
| 12.8. | Dana TM4 |
| 12.9. | Volvo Driveline |
| 12.10. | Meritor Blue Horizon ePowertrain |
| 12.11. | Meritor 14Xe Electric Drivetrain |
| 12.12. | Danfoss Editron |
| 12.13. | Detroit eAxles |
| 12.14. | Allison Transmission eGen Power e-Axles |
| 12.15. | ZF Electrification Solutions |
| 12.16. | BorgWarner |
| 13. | FUEL CELL ELECTRIC TRUCKS |
| 13.1.1. | Introduction to fuel cells |
| 13.1.2. | Fuel Cells Trucks Outlook |
| 13.1.3. | System Efficiency Between BEVs and FCEVs |
| 13.1.4. | Up Front Costs of BEV and FCEV Trucks Progression |
| 13.1.5. | Attraction of Fuel Cell Vehicles |
| 13.1.6. | Deployment Barriers for FCEV |
| 13.1.7. | A Kaleidoscope of Hydrogen Colours |
| 13.1.8. | Sources of Hydrogen |
| 13.1.9. | Overview of Fuel Cell Technologies |
| 13.1.10. | Comparison of Fuel Cell Technologies |
| 13.1.11. | Fuel Cells Company Landscape |
| 13.1.12. | Proton Exchange Membrane Fuel Cells |
| 13.1.13. | What is a Fuel Cell Vehicle? |
| 13.1.14. | Installed Battery Capacity by Truck Weight |
| 13.1.15. | Fuel Cell Power vs Vehicle Weight - OEM Benchmarking |
| 13.1.16. | Fuel Cell Energy Density Advantage |
| 13.1.17. | Batteries vs Fuel Cells: Driving Range |
| 13.1.18. | Daily Duty Cycle Demand |
| 13.1.19. | Heavy Duty Vehicle Fuel Cell System Costs |
| 13.1.20. | The Challenge: Green H2 Cost Reduction |
| 13.1.21. | Must be Green H2 for FCEV to be 'Green' |
| 13.1.22. | Green Hydrogen Price Development Forecasts |
| 13.1.23. | Green Hydrogen Production Costs US / EU |
| 13.1.24. | Green H2 Cost by Electricity Source US / EU |
| 13.1.25. | Electrolyser Powered by Curtailed Electricity |
| 13.1.26. | Comparison Hydrogen Fuel Cost vs Diesel Cost |
| 13.1.27. | FCEV Truck Hydrogen Consumption - OEM Benchmarking |
| 13.1.28. | Renewable Hydrogen Cost Prediction in Europe |
| 13.1.29. | Subsidies Available to Fuel Cell Trucks |
| 13.1.30. | Potential Impact of Inflation Reduction Act on FCEV Trucks |
| 13.1.31. | Fuel Cell Manufacturers Collaboration on FC-Trucks |
| 13.1.32. | Fuel Cell Company Acquisitions Related to Trucks |
| 13.2. | Fuel Cell Truck Players |
| 13.2.1. | Fuel Cell Truck Example Specifications |
| 13.2.2. | Fuel Cell Trucks: Hyundai |
| 13.2.3. | U.S. XCEINT Longer Range |
| 13.2.4. | Hyundai Hydrogen Mobility |
| 13.2.5. | Hyundai XCIENT China Order |
| 13.2.6. | Fuel Cell Trucks: DAIMLER / VOLVO |
| 13.2.7. | Volvo Group: Toward Fossil Free Transport |
| 13.2.8. | Scania to Concentrate on BEV-Trucks |
| 13.2.9. | Scania Still Developing Fuel Cell Trucks |
| 13.2.10. | Horizon Fuel Cell Technologies |
| 13.2.11. | Horizon Fuel Cell Technologies |
| 13.2.12. | HYZON Motors |
| 13.2.13. | HYZON Motors Heavy-Duty Truck Schematic |
| 13.2.14. | Nikola Corporation |
| 13.2.15. | Nikola Motor: BEV and FCEV |
| 13.2.16. | IDTechEx Take: The Future for Nikola |
| 13.2.17. | Fuel Cell Trucks: KENWORTH (PACCAR) |
| 13.2.18. | Example Fuel Cell Manufacturers U.S. FC-Trucks |
| 13.2.19. | Fuel Cell Trucks: TOYOTA / HINO |
| 13.2.20. | VDL and Toyota Present First FCEV Truck |
| 13.2.21. | Fuel Cell Trucks: DONGFENG |
| 13.2.22. | Isuzu and Honda Fuel Cell Truck |
| 13.2.23. | BOSAL / Ceres Power - SOFC Range Extender |
| 13.2.24. | Ballard Motive Solutions |
| 13.2.25. | Ballard Motive Solutions |
| 13.2.26. | Fuel Cell Truck Sales in China 2018-2023 |
| 13.2.27. | Chinese FCEV Support |
| 13.2.28. | China Hydrogen Refuelling Stations |
| 13.2.29. | China's FCEV Deployment will it be Green? |
| 13.2.30. | Chinese Fuel Cell Dump Trucks |
| 13.2.31. | SANY Fuel Cell Trucks |
| 13.2.32. | China Fuel Cell Installed Capacity 2023 |
| 13.2.33. | Other Chinese Fuel Cell System Manufacturers |
| 13.2.34. | United Fuel Cell System R&D (Beijing) Co. |
| 13.2.35. | Guide to Hydrogen Truck Refuelling |
| 13.2.36. | Developing Hydrogen Refuelling Infrastructure |
| 13.2.37. | Fuel Cell Truck Refuelling Advantage |
| 13.2.38. | Long-Haul Trucking Opportunity? |
| 13.2.39. | FC-Trucks Facilitate Wider FCEV Deployment |
| 13.2.40. | The Fundamental Issue of Efficiency |
| 14. | H2 COMBUSTION ENGINES |
| 14.1. | The Hydrogen Economy |
| 14.2. | The Colors of Hydrogen |
| 14.3. | Introduction - H2 Combustion Engines |
| 14.4. | Hydrogen Combustion Engines |
| 14.5. | Attraction of H2 Combustion Engines |
| 14.6. | High Energy Density and Low Cost |
| 14.7. | Drawbacks of H2 Combustion Engines |
| 14.8. | H2-ICE Development by Vehicle Type |
| 14.9. | H2-ICE Development by Region |
| 14.10. | KEYOU |
| 14.11. | H2 Engine Key Modifications |
| 14.12. | Suppliers Move Toward H2-ICE |
| 14.13. | JCB Focus on Hydrogen Combustion |
| 14.14. | DAF BEV, H2-ICE, and FCEV |
| 14.15. | MAN Truck & Bus - H2 Engine Testing |
| 14.16. | Tata Motors H2-ICE Truck |
| 14.17. | H2-ICE Emissions Near Zero |
| 14.18. | Hydrogen Combustion System Layouts |
| 14.19. | Cummins H2-ICE Approach |
| 14.20. | H2-ICE CO2 Emission Reduction |
| 14.21. | H2-ICE Efficiency vs FCEV |
| 14.22. | Is there a TCO Case for H2-ICE? |
| 14.23. | Is H2-ICE a Fast-to-Market Solution? |
| 14.24. | H2-ICE CAPEX Advantage |
| 14.25. | Green H2 Production Cost Forecast |
| 14.26. | Hydrogen refueling stations (HRS) |
| 14.27. | H2 Fuel Price More than Production Cost |
| 14.28. | On-site H2 Production in Europe |
| 14.29. | Cost of hydrogen at the pump (1/2) |
| 14.30. | Cost of hydrogen at the pump (2/2) |
| 14.31. | The Reality: Today's H2 Pump Price |
| 14.32. | The TCO Impact of High H2 Fuel Cost |
| 14.33. | H2-ICE Summary |
| 15. | FORECASTS |
| 15.1.1. | Forecast Methodology (1) |
| 15.1.2. | Forecast Methodology (2) |
| 15.1.3. | Forecast Methodology (3) |
| 15.1.4. | Forecast Assumptions |
| 15.1.5. | Fuel Cells in Trucks Commentary |
| 15.1.6. | Other Alternative Powertrains |
| 15.2. | Medium and Heavy-Duty Truck Market Forecasts 2023-2044 |
| 15.2.1. | Medium & Heavy-Duty Truck Global Sales |
| 15.2.2. | eM&HDT Unit Sales |
| 15.2.3. | eM&HDT Sales by Region |
| 15.2.4. | Global M&HDT Market Share for eM&HDT |
| 15.2.5. | eM&HDT Battery Demand (GWh) |
| 15.2.6. | eM&HDT Battery Demand Forecast by Region |
| 15.2.7. | eM&HDT Market Value Forecast ($US billion) |
| 15.2.8. | eM&HDT Market Value Forecast by Region |
| 15.2.9. | FCEV M&HDT Fuel Cell Demand Forecast (MW) |
| 15.3. | Medium-Duty Truck Market Forecasts 2023-2044 |
| 15.4. | Medium-Duty Truck (MDT) Global Sales |
| 15.4.1. | MDT Global Sales: BEV, PHEV and FCEV |
| 15.4.2. | eMDT Sales by Region |
| 15.4.3. | Global MDT Market Share for eMDT |
| 15.4.4. | eMDT Battery Demand Forecast (GWh) |
| 15.4.5. | eMDT Market Forecast ($US billion) |
| 15.4.6. | eMDT Market Forecast by Region |
| 15.5. | Heavy-Duty Truck Market Forecasts 2023-2044 |
| 15.5.1. | Heavy-Duty Truck (HDT) Global Sales |
| 15.5.2. | HDT Global Sales: BEV, PHEV and FCEV |
| 15.5.3. | eHDT Sales by Region |
| 15.5.4. | Global HDT Market Share for eHDT |
| 15.5.5. | eHDT Battery Demand Forecast (GWh) |
| 15.5.6. | eHDT Market Forecast ($US billion) |
| 15.5.7. | eHDT Market Forecast by Region |
| 15.6. | Regional Sales Forecasts 2023-2044 |
| 15.6.1. | Europe (EU27+UK+EFTA) MDT Sales by Powertrain |
| 15.6.2. | Europe (EU27+UK+EFTA) HDT Sales by Powertrain |
| 15.6.3. | U.S. MDT Sales by Powertrain |
| 15.6.4. | U.S. HDT Sales by Powertrain |
| 15.6.5. | China MDT Sales by Powertrain |
| 15.6.6. | China HDT sales by Powertrain |
| 15.6.7. | RoW MDT Sales by Powertrain |
| 15.6.8. | RoW HDT Sales by Powertrain |
| 16. | COMPANY PROFILES |
| 16.1. | Leyland Trucks |
| 16.2. | TEVVA |
| 16.3. | Volvo Trucks |
| 16.4. | Renault Trucks |
| 16.5. | Mercedes-Benz Trucks |
| 16.6. | DAF |
| 16.7. | Scania |
| 16.8. | MAN |
| 16.9. | Futuricum |
| 16.10. | Lion Electric |
| 16.11. | Motiv Power Systems |
| 16.12. | XOS Trucks |
| 16.13. | Freightliner |
| 16.14. | FCCC |
| 16.15. | Peterbilt |
| 16.16. | Kenworth |
| 16.17. | VTNA |
| 16.18. | BYD |
| 16.19. | Tesla |
| 16.20. | Nikola |
| 16.21. | Lightning eMotors |
| 16.22. | SEA Electric |
| 16.23. | Hyliion |
| 16.24. | Mack Trucks |
| 16.25. | Akasol |
| 16.26. | American Battery Solutions |
| 16.27. | Forsee Power |
| 16.28. | Leclanché |
| 16.29. | Microvast |
| 16.30. | Northvolt |
| 16.31. | Romeo Power |
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Report Statistics
| Slides | 510 |
|---|---|
| Companies | 31 |
| Forecasts to | 2044 |
| Published | Nov 2023 |
| ISBN | 9781835700006 |
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