A quick peek into the report
Table of Contents
1 Research Scope & Methodology
1.1 Report Scope
1.2 Automotive Regenerative Braking Systems Market: Research Methodology
2 Market Dynamics
2.1 Market Drivers
2.1.1 Stringent Government Regulations associated with GHG emission by vehicles
2.1.2 Shift in the Automotive Industry Towards Greener and Cleaner Vehicles
2.1.3 Performance advantages offered by RBS Over Conventional Brakes
2.2 Market Challenges
2.2.1 High Manufacturing Cost of the RBS
2.2.2 High Complexity Associated with the System and its Integration
2.2.3 Operational Challenges Associated with the Usage of the RBS
2.3 Market Opportunities
2.3.1 Surging Demand of Zero Emission Vehicles
2.3.2 Rising Market Opportunities for the Ultracapacitor Based RBS
3 Competitive Insights
3.1 Key Strategies and Developments
3.1.1 Product Launches
3.1.2 Mergers and Acquisitions
3.1.3 Partnerships, Collaborations & Joint Ventures
3.1.4 Business Expansions
3.1.5 Others (Events, Awards, and Achievements)
3.2 Market Share Analysis
4 Global Automotive Regenerative Braking Systems Market: Analysis and Forecast
4.1 Assumptions & Limitations for Market Size Calculations
4.2 Market Overview
5 Global Automotive Regenerative Braking System Market by Storage Type
5.1 Battery
5.2 Flywheel
5.3 Ultracapacitors
5.4 Hydraulic
6 Global Automotive Regenerative Braking Systems Market by Vehicle Type
6.1 Passenger Cars
6.2 Commercial Vehicles
7 Global Automotive Regenerative Braking Systems Market by Geography
7.1 North America
7.1.1 The U.S.
7.1.2 Canada
7.2 Europe
7.2.1 Germany
7.3 The U.K.
7.3.1 France
7.4 APAC
7.4.1 China
7.4.2 Japan
7.4.3 South Korea
7.5 Rest of the World
7.5.1 Middle East and Africa
7.5.2 Latin America
8 Company Profiles
8.1 Aisin Seiki Co., Ltd.
8.1.1 Company Overview
8.1.2 Product Offering
8.1.3 Financials
8.1.3.1 Financial Summary
8.1.4 SWOT Analysis
8.2 Adgero S.A.S
8.2.1 Company Overview
8.2.2 Product Offerings
8.2.3 SWOT Analysis
8.3 Autoliv Nissin Brake Systems
8.3.1 Company Overview
8.3.2 Product Offerings
8.4 Continental AG
8.4.1 Company Overview
8.4.2 Product Offering
8.4.3 Financials
8.4.3.1 Financial Summary
8.4.4 SWOT Analysis
8.5 Denso Corporation
8.5.1 Company Overview
8.5.2 Product Offering
8.5.3 Financials
8.5.3.1 Financial Summary
8.5.4 SWOT Analysis
8.6 Eaton Corporation Plc
8.6.1 Company Overview
8.6.2 Product Offerings
8.6.3 Financials
8.6.3.1 Financial Summary
8.6.4 SWOT Analysis
8.7 Magneti Marelli S.p.A
8.7.1 Product Offering
8.7.2 Financials
8.7.2.1 Financial Summary
8.7.3 SWOT Analysis
8.8 Maxwell Technologies
8.8.1 Company overview
8.8.2 Product Offering
8.8.3 Financials
8.8.3.1 Financial Summary
8.8.4 SWOT Analysis
8.9 Mazda Motor Corporation
8.9.1 Company overview
8.9.2 Product Offering
8.9.3 Financials
8.9.3.1 Financial Summary
8.9.4 SWOT Analysis
8.10 Robert Bosch GmbH
8.10.1 Company Overview
8.10.2 Product Offerings
8.10.3 Financials
8.10.3.1 Financial Summary
8.10.4 SWOT Analysis
8.11 Skeleton Technologies.
8.11.1 Company Overview
8.11.2 Product Offerings
8.11.3 SWOT Analysis
8.12 Torotrak Plc
8.12.1 Company overview
8.12.2 Product Offering
8.12.3 Financial
8.12.3.1 Financial Summary
8.12.4 SWOT Analysis
8.13 ZF Friedrichshafen AG
8.13.1 Company Overview
8.13.2 Product Offering
8.13.3 Financial Overview
8.13.3.1 Financial Summary
8.13.4 SWOT Analysis
List of Tables
Table 3.1 Key Product Launches (2015-2017)
Table 3.2 Key Mergers and Acquisitions (2015-2017)
Table 3.3 Key Partnerships/Collaborations/Joint Ventures (2015-2017)
Table 3.4 Key Business Expansion Activities (2015-2017)
Table 3.5 Key Awards/Achievements/Events (2015-2017)
Table 4.1 Global Automotive Regenerative Braking Systems Market Insights, 2016-2026
Table 5.1 Global Automotive Regenerative Braking Systems Market by Storage Type, Market Size (2016-2026)
Table 6.1 Global Automotive Regenerative Braking Systems Market Size by Vehicle Type (2016-2026)
Table 6.2 Passenger Cars Automotive Regenerative Braking Systems Market by Storage Type, Market Size
Table 6.3 Commercial Vehicles Automotive Regenerative Braking Systems Market by Storage Type (Market Size)
Table 7.1 Global Automotive Regenerative Braking Systems Market by Region, (2016-2026)
Table 7.2 North America Automotive Regenerative Braking Systems Market by Country
Table 7.3 Europe Automotive Regenerative Braking Systems Market by Country
Table 7.4 APAC Automotive Regenerative Braking Systems Market by Country
List of Figures
Figure 1 Global Automotive Regenerative Braking Systems Market Snapshot
Figure 2 Global Automotive Regenerative Braking Systems Market by Storage Types, 2017 & 2026 ($Million)
Figure 3 Global Automotive Regenerative Braking Systems Market by Vehicle Type, 2017 & 2026
Figure 4 Global Automotive Regenerative Braking Systems Market by Geography, 2016
Figure 1.1 Global Automotive Regenerative Braking Systems Market Scope
Figure 1.2 Secondary Data Sources
Figure 1.3 Top Down and Bottom Up Approach
Figure 1.4 Automotive Regenerative Braking Systems: Market Influencing Factors
Figure 1.5 Assumptions and Limitations
Figure 2.1 Market Dynamics of Global Automotive Regenerative Braking Systems Market
Figure 3.1 Organic & Inorganic Strategies Adopted by the Key Players
Figure 3.2 Share of Key Market Strategies & Developments, 2015-2017
Figure 3.3 Market Share Analysis: Global Automotive Regenerative Braking Systems Market
Figure 5.1 Battery Regenerative Braking Systems Market (2016-2026)
Figure 5.2 Flywheel Regenerative Braking Systems Market, Market Size (2016-2026)
Figure 5.3 Ultracapacitors Regenerative Braking Systems Market, Market Size (2016-2026)
Figure 5.4 Hydraulics Regenerative Braking Systems Market, Market Size (2016-2026)
Figure 6.1 Global Automotive Regenerative Braking Systems Market Size by Vehicle Type (2017 & 2026)
Figure 6.2 Passenger Cars Automotive Regenerative Braking Systems Market, Market Size (2016-2026)
Figure 6.3 Commercial Vehicles Automotive Regenerative Braking Systems Market, Market Size (2016-2026)
Figure 7.1 Global Automotive Regenerative Braking Systems Market Scenario, (2016 & 2026)
Figure 7.2 Global Automotive Regenerative Braking Systems Market Size (2016-2026)
Figure 7.3 North America: Automotive Regenerative Braking Systems Market, Market Size (2016-2026)
Figure 7.4 North America: Automotive Regenerative Braking Systems Market Scenario
Figure 7.5 The U.S: Automotive Regenerative Braking Systems Market, Market Size (2016-2026)
Figure 7.6 Canada: Automotive Regenerative Braking Systems Market, (2016-2026)
Figure 7.7 Europe: Automotive Regenerative Braking Systems Market, (2016-2026)
Figure 7.8 Europe: Automotive Regenerative Braking Systems Market by Country
Figure 7.9 Germany: Automotive Regenerative Braking Systems Market, (2016-2026)
Figure 7.10 The U.K: Automotive Regenerative Braking Systems Market, (2016-2026)
Figure 7.11 France: Automotive Regenerative Braking Systems Market, (2016-2026)
Figure 7.12 APAC: Automotive Regenerative Braking Systems Market, Market Size (2016-2026)
Figure 7.13 APAC: Automotive Regenerative Braking Systems Market by Country
Figure 7.14 China: Automotive Regenerative Braking Systems Market Size (2016-2026)
Figure 7.15 Japan: Automotive Regenerative Braking Systems Market, (2016-2026)
Figure 7.16 South Korea: Automotive Regenerative Braking Systems Market, (2016-2026)
Figure 7.17 ROW: Automotive Regenerative Braking Systems Market, (2016-2026)
Figure 8.1 Aisin Seiki Co., Ltd: Product Offering
Figure 8.2 Aisin Seiki Co., Ltd: Overall Financials, 2014-2016
Figure 8.3 Aisin Seiki Co., Ltd: Revenue by Business Segment, 2014-2016
Figure 8.4 Aisin Seiki Co., Ltd: Revenue by Region 2014-2016
Figure 8.5 SWOT Analysis: Aisin Seiki Co., Ltd.
Figure 8.6 Adgero.S.A.S: Product Offering
Figure 8.7 Adgero S.A.S. SWOT Analysis
Figure 8.8 Autoliv Nissin Brakes System: Product Offerings
Figure 8.9 Continental AG: Product Offerings
Figure 8.10 Continental AG: Overall Financials, 2014-2016
Figure 8.11 Continental AG: Net Revenue by Region, 2014-2015
Figure 8.12 Continental AG: Net Revenue by Business Segment, 2014-2016
Figure 8.13 Continental AG: SWOT Analysis
Figure 8.14 Denso Corporation: Product Offerings
Figure 8.15 Denso Corporation: Overall Financials, 2014-2016
Figure 8.16 Denso Corporation: Revenue by Region, 2014-2016
Figure 8.17 Denso Corporation: Revenue by Business Segment, 2014-2016
Figure 8.18 Denso Corporation: SWOT Analysis
Figure 8.19 Eaton Corporation Plc: Product Offerings
Figure 8.20 Eaton Corporation Plc: Overall Financials (2014-2016)
Figure 8.21 Eaton Corporation Plc: Net Revenue by Geography (2014-2016)
Figure 8.22 Eaton Corporation Plc: Revenue by Business Segment (2014-2016)
Figure 8.23 SWOT Analysis: Eaton Corporation Plc
Figure 8.24 Magneti Marelli: Product Offerings
Figure 8.25 Magneti Marelli: Net Revenue (2014-2016)
Figure 8.26 SWOT Analysis: Magneti Marelli
Figure 8.27 Maxwell Technologies: Product Offerings
Figure 8.28 Maxwell Technologies: Overall Financials (2014-2016)
Figure 8.29 Maxwell Technologies: Revenue by Business Segment (2014-2016)
Figure 8.30 SWOT Analysis: Maxwell Technologies
Figure 8.31 Mazda Motor Corporation: Product Offerings
Figure 8.32 Mazda Motor Corporation: Overall financials (2014-2016)
Figure 8.33 Mazda Motor Corporation: Revenue by Region (2014-2016)
Figure 8.34 Mazda Motor Corporation: SWOT Analysis
Figure 8.35 Robert Bosch GmbH: Product Offerings
Figure 8.36 Robert Bosch GmbH: Overall Financials, 2014-2016
Figure 8.37 Robert Bosch GmbH: Revenue by Region, (2014-2016)
Figure 8.38 Robert Bosch GmbH: Revenue by Business Segments, (2014-2016)
Figure 8.39 Robert Bosch GmbH: SWOT Analysis
Figure 8.40 Skeleton Technologies: Product Offering
Figure 8.41 Skeleton Technologies: SWOT Analysis
Figure 8.42 Torotrak Plc: Product Offerings
Figure 8.43 Torotrak Plc: Overall Financials, 2014-2016
Figure 8.44 Torotrak Plc: Revenue by Business Segment, 2014-2016
Figure 8.45 SWOT Analysis: Torotrak Plc
Figure 8.46 ZF Friedrichshafen AG: Product Offerings
Figure 8.47 ZF Friedrichshafen AG: Overall Financials (2014-2016)
Figure 8.48 ZF Friedrichshafen AG: Revenue by Region, (2014-2016)
Figure 8.49 ZF Friedrichshafen AG: Revenue by Business Segment, (2014-2016)
Figure 8.50 ZF Friedrichshafen AG: SWOT Analysis
Key Questions Answered in this Report:
• What is the global automotive RBS market size in terms of volume and value in the period 2017-2026?
• Which is the dominant storage type by value for the global automotive RBS market?
• Which is the storage type by vehicle type in terms of value during the forecast period?
• What is the revenue generated by the different storage types in the global automotive RBS market in the period 2017-2026?
• What is the revenue generated by the different storage types for different vehicle type in the global automotive RBS market in the period 2017-2026?
• Which vehicle type will lead by value in the global automotive RBS market by the end of the forecast period?
• What are the different factors driving the market forward in the forecast period?
• What are the major factors challenging the growth of global electric vehicles market?
• Which type of new strategies are being adopted by the existing market players to make a mark in the industry?
• Which region will lead the global automotive RBS market by the end of the forecast period?
Report Description
Owing to the increase of vehicle sales during the past few year, the contribution of automotive industry in the greenhouse gas (GHG) emission has increased. The increasing content of GHG is causing severe environmental problems such as global warming and negative effect on climate change. The rising level of GHG created a demand to limit the GHG emission by vehicles. Several legislative bodies across the world issued rules and regulations to curb the GHG emission by vehicles. Regenerative braking systems (RBS), when used as one of the engine component of the vehicle not only decreases the GHG emission but also increases the fuel efficiency. Hence to adhere with the strict regulations, an increase in the adoption of RBS is witnessed in the automotive industry. This in turn increased the number of product launches, merger, acquisitions and collaborations pertaining to automotive RBS. The market value of automotive RBS is anticipated to reach $24.52 billion by 2026. The global automotive RBS market is compilation of several segmentations including market breakdown by storage type, vehicle type, and different geographical regions.A detailed market analysis and forecast with respect to different energy storage types used in a RBS is done. While highlighting the key driving and restraining forces for this market, the report also provides a detailed study of RBS in different types of vehicles, which include passenger and commercial vehicles. The report provides the market analysis and forecast of automotive RBS in different regions, along with the country wise segmentation.
The report includes an exhaustive analysis of the geographical split into North America (the U.S and Canada), Europe (Germany, the U.K, France, and Netherlands), and Asia-Pacific (China, Japan, and South Korea). Analysis of each of the geographical regions details the individual push and pull forces in addition to the key players from that particular region.
The report examines the role of the leading market players involved in the industry. The company profiles section includes highlights of significant information about the key companies involved, along with their financial positions, key strategies & developmental activities of recent years (2014-2016). Some of the key players are Aisin Seiki Co.Ltd (Japan), Adgero S.A.S (France), Autoliv Nissin Brakes Systems (Japan), Continental AG (Germany), Denso Corporation (Japan), Eaton Corporation Plc (Ireland), Magnetti Marelli S.p.A (Italy), Maxwell Technologies (the U.S), Mazda Motor Corporation (Japan), Robert Bosch GmbH (Germany), Skeleton Technologies (Estonia), Torotrak Plc (the U.K), and ZF Friedrichshafen AG (Germany).
Market Overview
The automotive industry is one of the significant pillars of the global economy, and is one of the important aspects responsible for macroeconomic growth, and technological advancements across the globe. In the past few years, automobiles have become a crucial necessity for every individual, which has led to the rise in the procurement of vehicles. Attributing to this, the automotive industry curve has witnessed an increasing trend, wherein, the worldwide vehicle sales in the year 2016 reached approximately 88 million, registering a growth of 4.8% as compared to 2015. This continuous increase in the sales of vehicles along with the rising usage of automobiles are some of the major factors responsible for the depletion of nonrenewable resources, leading to an increase in the concentration of Greenhouse Gases (GHG) in the atmosphere. According to the Environmental Protection Agency (EPA), the transport sector contributed 27% of the total GHG emission, in the U.S, in 2015. In Europe, the European Environment Agency (EEA) claimed that the transport sector contributed 25.8%. Owing to the rising levels of GHG in the atmosphere, the governments of several nations, environmental agencies, and automobile manufacturers are developing modes that may help in lesser fuel consumption, and reduced emission. Regenerative braking systems is one such technology that help to reduce the fuel consumption and GHG emission by the vehicles. The attracting features of RBS and today’s need to limit the GHG emission are some of the major factors for the widespread adoption of RBS in automotive industry. RBS is widely used in electric vehicles (EVs), hence the growing number of EVs promise the growth in the market of RBS in the upcoming years.
The report analyses and forecasts the market value of the global automotive regenerative braking systems (RBS) market during the forecast period (2017-2021). The market by volume of automotive RBS is anticipated to reach 16.7 million units in 2026. Stringent government rules and regulations, growing adoption of RBS in electric and hybrid vehicles, and extensive usage of RBS in order to improve vehicle performance are some of the factors driving the global automotive regenerative braking systems market. Furthermore, the better performance of regenerative brakes, when compared to the conventional brakes, has resulted into the robust growth of the market. On the other hand, higher cost of regenerative braking systems, and greater integration complexity when compared to the conventional brakes are some of the factors which may hinder the market growth in the upcoming years.
The report provides the market value of automotive RBS with respect to the storage types (battery, flywheels, hydraulics, and ultracapacitors). Battery based RBS held the maximum market share of the global automotive RBS market in 2016 and the same is expected to follow during the forecast period. However owing to the better charge-discharge capabilities than batteries, and better performance over other storage based systems, the ultracapacitor based RBS are anticipated to grow at the fastest pace during the forecast period.
The automotive RBS in passenger cars held the highest share in the market in 2016 in terms of value and is also expected to grow at a higher rate as compared to commercial vehicles. The increase in deployment of RBS in the passenger cars is majorly attributed to the growing demand of electric passenger cars. RBS is one of the major component in an electric passenger cars to increase the fuel efficiency. The growing adoption of RBS in hybrid and electric passenger cars is anticipated to maintain its dominance during the forecast period.
This report provides an analysis of the global automotive RBS market on the basis of geography and consequently provides the value of the key regions which include North America, Europe, and Asia-Pacific (APAC). APAC held the maximum market share owing to the greater number of vehicles deployed with RBS. Automotive RBS market in APAC is anticipated to maintain the market dominance throughout the forecast period. The automotive market in the APAC region is growing rapidly, and the adoption of RBS in the APAC automotive industry is gaining attention due to the collective efforts from the government and manufacturers to develop technologies which may reduce the exhaust gas emissions, and increase the fuel efficiency.
Continental AG (Germany), Adgero S.A.S, Skeleton technologies (Estonia), and Denso Corporation (Japan) are some of the prominent players that surfaced in the years 2016, and 2017. However other players such as Aisin Seiki Co.Ltd (Japan), Autoliv Nissin Brakes Systems (Japan), Eaton Corporation Plc (Ireland), Magnetti Marelli S.p.A (Italy), Maxwell Technologies (the U.S), Mazda Motor Corporation (Japan), Robert Bosch GmbH (Germany), Torotrak Plc (the U.K), and ZF Friedrichshafen AG (Germany) are also coming up with innovative products and services, pricing strategies, market initiatives, and developing and extending the product lines to maintain the competition in the market.
Global Automotive Regenerative Braking System Market
Focus on Battery, Flywheel, Ultracapacitor, and Passenger car Application - Analysis and Forecast, 2017 - 2026