Netherlands Electric Powertrain Market Overview, 2029
The Netherlands' Electric Powertrain market is anticipated to exceed USD 9 billion by 2024–29, driven by advancements in electric vehicle infrastructure and government policies pro
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In Netherlands, with an emphasis on the creation and use of systems that transfer electrical energy into mechanical energy for vehicle movement, the electric powertrain market constitutes a sizeable portion of the automotive industry. This market includes a broad range of parts, such as gearbox systems made especially for electric and hybrid cars, batteries, electric motors, and power electronics. The electric powertrain industry is expanding significantly because to technology innovations, regulatory frameworks, and changing customer tastes, coinciding with increased worldwide efforts to reduce carbon emissions and reliance on fossil fuels. The absence of effective energy storage technologies restricted the practical use of electric powertrains. Significant advancements didn't happen until the end of the twentieth century, especially with the introduction of contemporary battery technology. In Netherlands, with the release of the General Motors EV1, the first mass-produced electric vehicle, in the 1990s, interest in electric propulsion was rekindled. The market for electric powertrains has rapidly changed in the twenty-first century due to developments in electric motor design, power electronics, and battery technology. Compared to previous technologies, the development of lithium-ion batteries in particular has changed the game by offering better energy densities and longer life cycles. The adoption of electric powertrains has also been accelerated by government laws and incentives. Major automotive manufacturers and technology companies are heavily investing in electric powertrain technologies. Companies like Tesla, Volkswagen, General Motors, and Nissan are leading the charge in developing electric vehicles with advanced powertrain systems.
According to the research report, "Netherlands Electric Powertrain Market Outlook, 2029," published by Bonafide Research, the Netherlands Electric Powertrain market is anticipated to add to more than USD 9 Billion by 2024–29. The major driving force environmental constraints and technology improvements are the two main drivers driving the electric powertrain industry at the moment. Governments and companies have been compelled to support greener technology due to stricter emissions demands and increased awareness of climate change. When compared to internal combustion engines, electric powertrains provide a considerable reduction in greenhouse gas emissions, supporting international efforts to lessen the impact of climate change. Automobile manufacturers are spending more in electric powertrain technology to fulfil pollution requirements that are becoming more stringent globally and to secure consumer acceptance. Technological developments had a significant impact on how the electric powertrain industry develops internationally. The efficiency and dependability of electric powertrains are progressively enhanced through the development of efficient electric motors and power electronics, increasing customer interest in EVs.
The global electric powertrain market is marked by several compelling trends and facts environmental restrictions, customer desire for cleaner automobiles, and breakthroughs in battery innovation are driving the automotive industry's electrification trend. To encourage the use of electric vehicles, some nations are enacting strict pollution regulations and providing incentives. The use of Netherlands’s electric powertrains is growing faster as a result of these regulations. Electric powertrain prices are coming down, making them more competitive with internal combustion engine vehicles as production scales up and technology progresses. In Netherlands market, consumer acceptance and demand for electric powertrains are being driven by growing knowledge of environmental concerns and the advantages of electric cars. Renewable energy sources may be used to charge electric cars, lowering their carbon footprint and increasing the environmental advantages of this technology.
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Electric motors in Netherlands market, power electronics (inverters and converters), and battery management systems (BMS) are some of the essential parts of electric powertrains. The driving range of electric vehicles has risen dramatically due to advancements in battery technology and engine efficiency. Hybrid electric vehicles (HEVs), plug-in hybrid electric vehicles (PHEVs), and battery electric vehicles (BEVs) are the three categories into which the electric powertrain market is divided. These cars differ in their levels of electrification and reliance on internal combustion engines. The widespread use of electric vehicles depends on the development of the infrastructure required for charging these.
Global regulatory challenges, environmental concerns, and technological breakthroughs are driving substantial growth and evolution in the electric powertrain industry. Due to growing customer demand for cleaner and more fuel-efficient vehicles, electric powertrains for passenger automobiles have gained significant popularity. When compared to conventional internal combustion engine cars, electric vehicles (EVs) have less pollutants and cheaper operational expenses. The electric motor, battery packs, power electronics (such as inverters and converters), and gearbox systems (which can be single-speed or multi-speed depending on the design) are essential parts of an electric powertrain for passenger automobiles. Major technical developments are occurring in the passenger automobile market, with improvements in battery technology leading to greater range, shorter charging times, and higher motor efficiency. Electric powertrains are becoming more and more popular in the commercial vehicle industry, mostly because of the advantages in operating costs over the course of the vehicle lifespan and the stricter pollution requirements in metropolitan areas. Commercial vehicles, such as delivery vans, trucks, buses, and utility vehicles, all need powertrains that are specifically designed to meet their unique operating requirements. Larger battery capacity are used in commercial electric powertrains to enable bigger payloads and longer driving ranges. Electric powertrains in commercial vehicles also need to take into account things like total cost of ownership, vehicle uptime, and the availability of charging infrastructure. Electric powertrains in passenger automobiles have become more popular for a number of reasons. Manufacturers have made major investments in the development of electric vehicles (EVs) in keeping with consumer demand for more environmentally friendly modes of transportation. Improvements in battery efficiency and charging infrastructure, for example, have allayed earlier worries about range anxiety and charging times.
The growing use of electric vehicles (EVs) in passenger cars, commercial vehicles, and two-wheelers contributes to the rapid expansion of the worldwide electric powertrain industry in Netherlands market. The basic parts of an electric powertrain include key components such batteries, power electronic controllers, gearboxes, motors/generators, converters, and on-board chargers. Enhancing the driving range and performance of electric vehicles (EVs) is largely dependent on advancements in battery technology, notably the move towards better energy density and faster charging capabilities. For the system to effectively manage power flow and guarantee the electric motors operate at their best, power electronic controllers and converters are essential components. Transmission system developments specifically designed for electric cars are also being seen in the market, with an emphasis on improving driving dynamics and economy. Batteries stand out among these as the most popular component worldwide. Their importance in deciding the performance, range, and overall cost-effectiveness of electric vehicles (EVs) is the main reason for their domination. Improvements in battery technology, such as increased energy densities, quicker charging times, and decreased prices, have greatly increased battery use in a variety of vehicle markets.
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The rising international use of electric vehicles (EVs) is driving substantial developments in the electric powertrain sector, which is expanding at a rapid pace. In Netherlands, the only sources of electricity for battery electric vehicles, or BEVs, are rechargeable battery packs and electric motors. An electric motor, power electronics for motor control, and a large battery pack generally make up the electric powertrain of BEVs. Thanks to advances in battery technology that have resulted in longer driving ranges and faster charging times, the market for BEV powertrains has grown exponentially. Global governments are also encouraging the use of BEVs by offering tax breaks, subsidies, and strict pollution standards, which is driving up market demand. In Netherlands, internal combustion engines (ICEs) are combined with an electric motor and battery pack to create hybrid electric cars. They help the internal combustion engine (ICE) accelerate and utilise the electric motor and battery for low-speed driving, which increases fuel economy and lowers pollutants. Compared to conventional HEVs, plug-in hybrid electric cars, or PHEVs, have bigger batteries and may be externally charged from the grid, allowing for longer driving ranges on electricity alone. Consumer desire for vehicles with both electric and internal combustion capabilities—that is, flexibility without range anxiety—is driving the market for hybrid and plug-in hybrid electric powertrains. BEVs are now a major player in the world market for electric powertrains. These cars don't need internal combustion engines or exhaust systems since they run only on electricity that is stored in batteries. Because of their potential to produce no emissions, BEVs are becoming more and more common in areas and markets that prioritise environmental sustainability and tighter emissions laws.
Considered in this report
• Historic year: 2018
• Base year: 2023
• Estimated year: 2024
• Forecast year: 2029
Aspects covered in this report
• Electric Powertrain market Outlook with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation
By Vehicle Type
• Passenger Car
• Commercial Vehicle
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By Component
• Battery
• Power Electronic Controller
• Motor/Generator
• Converter
• Transmission
• On-Board Charger
By Application
• BEV
• HEV/PHEV
The approach of the report:
This report consists of a combined approach of primary and secondary research. Initially, secondary research was used to get an understanding of the market and list the companies that are present in it. The secondary research consists of third-party sources such as press releases, annual reports of companies, and government-generated reports and databases. After gathering the data from secondary sources, primary research was conducted by conducting telephone interviews with the leading players about how the market is functioning and then conducting trade calls with dealers and distributors of the market. Post this; we have started making primary calls to consumers by equally segmenting them in regional aspects, tier aspects, age group, and gender. Once we have primary data with us, we can start verifying the details obtained from secondary sources.
Intended audience
This report can be useful to industry consultants, manufacturers, suppliers, associations, and organizations related to the Electric Powertrain industry, government bodies, and other stakeholders to align their market-centric strategies. In addition to marketing and presentations, it will also increase competitive knowledge about the industry.
Table of Contents
1. Executive Summary
2. Market Structure
2.1. Market Considerate
2.2. Assumptions
2.3. Limitations
2.4. Abbreviations
2.5. Sources
2.6. Definitions
2.7. Geography
3. Research Methodology
3.1. Secondary Research
3.2. Primary Data Collection
3.3. Market Formation & Validation
3.4. Report Writing, Quality Check & Delivery
4. Netherlands Macro Economic Indicators
5. Market Dynamics
5.1. Market Drivers & Opportunities
5.2. Market Restraints & Challenges
5.3. Market Trends
5.3.1. XXXX
5.3.2. XXXX
5.3.3. XXXX
5.3.4. XXXX
5.3.5. XXXX
5.4. Covid-19 Effect
5.5. Supply chain Analysis
5.6. Policy & Regulatory Framework
5.7. Industry Experts Views
6. Netherlands Electric Powertrain Market Overview
6.1. Market Size By Value
6.2. Market Size and Forecast, By Vehicle Type
6.3. Market Size and Forecast, By Component
6.4. Market Size and Forecast, By Application
7. Netherlands Electric Powertrain Market Segmentations
7.1. Netherlands Electric Powertrain Market, By Vehicle Type
7.1.1. Netherlands Electric Powertrain Market Size, By Passenger Car, 2018-2029
7.1.2. Netherlands Electric Powertrain Market Size, By Commercial Vehicle, 2018-2029
7.2. Netherlands Electric Powertrain Market, By Component
7.2.1. Netherlands Electric Powertrain Market Size, By Battery, 2018-2029
7.2.2. Netherlands Electric Powertrain Market Size, By Power Electronic Controller, 2018-2029
7.2.3. Netherlands Electric Powertrain Market Size, By Motor/Generator, 2018-2029
7.2.4. Netherlands Electric Powertrain Market Size, By Converter, 2018-2029
7.2.5. Netherlands Electric Powertrain Market Size, By Transmission, 2018-2029
7.2.6. Netherlands Electric Powertrain Market Size, By On-Board Charger, 2018-2029
7.3. Netherlands Electric Powertrain Market, By Application
7.3.1. Netherlands Electric Powertrain Market Size, By BEV, 2018-2029
7.3.2. Netherlands Electric Powertrain Market Size, By HEV/PHEV, 2018-2029
8. Netherlands Electric Powertrain Market Opportunity Assessment
8.1. By Vehicle Type, 2024 to 2029
8.2. By Component, 2024 to 2029
8.3. By Application, 2024 to 2029
9. Competitive Landscape
9.1. Porter's Five Forces
9.2. Company Profile
9.2.1. Company 1
9.2.1.1. Company Snapshot
9.2.1.2. Company Overview
9.2.1.3. Financial Highlights
9.2.1.4. Geographic Insights
9.2.1.5. Business Segment & Performance
9.2.1.6. Product Portfolio
9.2.1.7. Key Executives
9.2.1.8. Strategic Moves & Developments
9.2.2. Company 2
9.2.3. Company 3
9.2.4. Company 4
9.2.5. Company 5
9.2.6. Company 6
9.2.7. Company 7
9.2.8. Company 8
10. Strategic Recommendations
11. Disclaimer
Table 1: Influencing Factors for Electric Powertrain Market, 2023
Table 2: Netherlands Electric Powertrain Market Size and Forecast, By Vehicle Type (2018 to 2029F) (In USD Million)
Table 3: Netherlands Electric Powertrain Market Size and Forecast, By Component (2018 to 2029F) (In USD Million)
Table 4: Netherlands Electric Powertrain Market Size and Forecast, By Application (2018 to 2029F) (In USD Million)
Table 5: Netherlands Electric Powertrain Market Size of Passenger Car (2018 to 2029) in USD Million
Table 6: Netherlands Electric Powertrain Market Size of Commercial Vehicle (2018 to 2029) in USD Million
Table 7: Netherlands Electric Powertrain Market Size of Battery (2018 to 2029) in USD Million
Table 8: Netherlands Electric Powertrain Market Size of Power Electronic Controller (2018 to 2029) in USD Million
Table 9: Netherlands Electric Powertrain Market Size of Motor/Generator (2018 to 2029) in USD Million
Table 10: Netherlands Electric Powertrain Market Size of Converter (2018 to 2029) in USD Million
Table 11: Netherlands Electric Powertrain Market Size of Transmission (2018 to 2029) in USD Million
Table 12: Netherlands Electric Powertrain Market Size of On-Board Charger (2018 to 2029) in USD Million
Table 13: Netherlands Electric Powertrain Market Size of BEV (2018 to 2029) in USD Million
Table 14: Netherlands Electric Powertrain Market Size of HEV/PHEV (2018 to 2029) in USD Million
Figure 1: Netherlands Electric Powertrain Market Size By Value (2018, 2023 & 2029F) (in USD Million)
Figure 2: Market Attractiveness Index, By Vehicle Type
Figure 3: Market Attractiveness Index, By Component
Figure 4: Market Attractiveness Index, By Application
Figure 5: Porter's Five Forces of Netherlands Electric Powertrain Market
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