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Global Train Battery Market by Type & Technology (Lead Acid-Gel Tubular, VRLA, Conventional; Ni-Cd-Sinter, Fiber, Pocket, & Li-Ion), Advanced Train (Autonomous, Hybrid, Fully Battery-Operated), Rolling Stock Type, Application and Region - Forecast to 2030

  • ID: 5146076
  • Report
  • September 2020
  • Region: Global
  • 181 Pages
  • Markets and Markets
The Global Train Battery Market is Projected to Reach USD 255 Million by 2030, from an Estimated Value of USD 143 Million in 2020, at a CAGR of 5.9%

FEATURED COMPANIES

  • AEG Power Solutions
  • Amara Raja Batteries Ltd.
  • Coslight India
  • Enersys
  • First National Battery
  • Hitachi
  • MORE

The global train battery market size is projected to reach USD 255 million by 2030, from an estimated value of USD 143 million in 2020, at a CAGR of 5.9%.

“Rapid increase in urbanization and government initiatives for rail network expansion is the significant factor for growth of the train battery market globally”

The growth is influenced by factors such as rapid urbanization in emerging countries and advanced economies is considered to be one of the largest drivers of infrastructure spending over the next few decades, which is expected to bolster the demand of rail expansion. The incorporation of these developments in urban rail infrastructure is expected to lead to the demand for energy storage systems and hence is expected to propel the demand for train batteries during the forecast period.

“Sinter Plate segment is expected to grow at the fastest CAGR by 2030, owing to enhanced high power density and less maintenance cost than lead acid batteries, which presents considerable growth opportunities for battery manufacturers”

The sintered plate battery performs better than other batteries at variable load and temperatures. The sintered plate nickel cadmium battery requires lower maintenance than other batteries and is highly reliable. Sintered plate nickel cadmium batteries are used for high power discharge applications such as aircraft turbine engines, diesel locomotives, etc. These batteries are used in DMUs and diesel locomotives to start engines and for the auxiliary functions of the trains because they have 50% higher energy density than pocket plate nickel cadmium batteries. Also, sinter nickel cadmium batteries are more stable at higher temperatures than lead acid batteries. The sinter/PNE nickel cadmium battery is projected to dominate the market in the Asia Pacific owing to its high energy density which makes it ideal for starting engines. Since the Asia Pacific has a significant share of diesel locomotives, the demand for the sinter/PNE nickel cadmium battery is expected to grow during the forecast period.

“Lithium ion battery segment is expected to be the fastest growing segment throughout the forecast period owing to high density and maintenance free”

Li-Ion batteries offer various advantages over other battery types such as maintenance-free, battery health tracking, high energy density, lighter in weight, and compact in design. Developed countries are expected to increase their adoption of Lithium-Ion batteries in rail transport faster compared to emerging countries because of the regulations and the higher costs associated with adopting Lithium-Ion batteries. Also, Lithium-Ion batteries are best suited for high-speed trains and China being the largest market for high-speed trains, the demand for Lithium-Ion batteries in the region is projected to grow during the forecast period.

“Asia Pacific market is expected to hold the largest market share by 2030”

The rolling stock power conversion systems industry in the Asia-Pacific has witnessed year-on-year growth. The region is the leading producer of rolling stock across the globe and is expected to retain this position during the forecast period as it has the largest rail network, rapid urban developments, and government initiatives towards the development of energy-efficient transportation. Additionally, Asian countries such as China is planning to extend the network to 45,000 km by 2030. High-speed trains, suburban trains, and urban transit trains are majorly run in China, which is expected to make the country the leading market for railway batteries. Furthermore, several developments are being undertaken in Indian railways, and fixed a target for the electrification of 7,000 RKM for the year 2020-21. Moreover, the Indian railways target at 100% electrification of routes by 2024. This offers significant opportunities for train battery manufacturers in the coming future.

In-depth interviews were conducted with CEOs, marketing directors, other innovation and strategy directors, and executives from various key organizations operating in this market.

  • By Company Type: OEM - 30%, Tier I - 60%, Tier II - 10%
  • By Designation: C Level - 40%, and Others - 60%
  • By Region: Asia Pacific - 50%, Europe - 30%, North America and RoW - 20%

Research Coverage

The study segments the train battery market and forecasts the market size based on Battery type (Lead Acid, Nickel Cadmium, Lithium ion), Battery Technology (Conventional Lead Acid Battery, Valve Regulated Lead Acid Battery, Gel Tubular Lead Acid Battery, Sinter/PNE Ni-Cd Battery, Pocket Plate Ni-Cd Battery, Fiber/PNE Ni-Cd Battery, Lithium Ion Battery), By Rolling Stock (Diesel Locomotives, DMUs, Electric Locomotives, EMUs, Metros, High-speed Trains, Light Trains/Trams/ Monorails, Passenger Coaches), By Application (Starter Battery, Auxiliary Battery (HVAC, Doors, Infotainment)), By Advance Train (Autonomous Trains, Hybrid Locomotives, Fully Battery Operated Trains) and region (Asia Pacific, Europe, North America and Rest of the World).

The study also includes an in-depth competitive analysis of the key players in the market, along with their company profiles, key observations related to product and business offerings, recent developments, and key market strategies. EnerSys (US), Exide Industries (India), Saft (France), Amara Raja Batteries (India), and GS Yuasa Corporation (Japan) are the leading manufacturers of train batteries in the global market.

Key Benefits of Buying the Report

The report will help the market leaders/new entrants in this market with the information on the closest approximations of the revenue numbers for the overall train battery market and the sub-segments. This report will help stakeholders understand the competitive landscape and gain more insights to better position their businesses and plan suitable go-to-market strategies. The report also helps stakeholders understand the pulse of the market and provides them information on key market drivers, restraints, challenges, and opportunities.

Note: Product cover images may vary from those shown

FEATURED COMPANIES

  • AEG Power Solutions
  • Amara Raja Batteries Ltd.
  • Coslight India
  • Enersys
  • First National Battery
  • Hitachi
  • MORE

1 Introduction
1.1 Study Objectives
1.2 Market Definition
1.2.1 Inclusions & Exclusions
1.3 Summary of Changes
1.4 Market Scope
Figure 1 Train Battery Market: Market Segmentation
1.5 Limitations
1.6 Stakeholders

2 Research Methodology
2.1 Research Data
Figure 2 Train Battery Market: Research Design
Figure 3 Research Design Model
2.2 Secondary Data
2.2.1 Key Secondary Sources for Base Numbers (Locomotive & Rolling Stock)
2.2.2 Key Secondary Sources for Market Sizing
2.2.3 Key Data from Secondary Sources
2.3 Primary Data
Figure 4 Breakdown of Primary Interviews
2.3.1 Sampling Techniques and Data Collection Methods
2.3.2 Primary Participants
2.4 Market Size Estimation
2.4.1 Bottom Up Approach
Figure 5 Bottom Up Approach - by Rolling Stock Type and Battery Type
2.4.2 Top Down Approach
Figure 6 Top Down Approach: Battery Technology and Application
2.5 Market Breakdown
Figure 7 Data Triangulation
2.6 Assumptions
2.7 Risk Assessment and Ranges
Table 1 Risk Assessment and Ranges

3 Executive Summary
3.1 Pre- vs Post-COVID-19 Scenario
Figure 8 Pre- vs Post-COVID-19 Scenario: Train Battery Market, 2018-2030 (‘000 USD)
Table 2 Train Battery Market: Pre- Vs. Post-COVID-19 Scenario, 2018-2030 (‘000 USD)
3.2 Report Summary
Figure 9 Train Battery Market Outlook
Figure 10 Train Battery Market, by Battery Type, 2020 Vs. 2030 (‘000 USD)

4 Premium Insights
4.1 Attractive Opportunities in the Train Battery Market
Figure 11 Rising Demand for Emus, and High Energy Density Batteries Expected to Drive the Market
4.2 Train Battery Market, by Battery Technology
Figure 12 Sinter/PNE Nickel-Cadmium Battery Estimated to Lead the Market in 2020
4.3 Train Battery Market, by Battery Type
Figure 13 Nickel Cadmium Battery Projected to Lead the Market by 2030
4.4 Train Battery Market, by Rolling Stock
Figure 14 Electric Locomotives Segment to Grow at the Highest CAGR
4.5 Train Battery Market, by Application
Figure 15 Auxiliary Battery Segment Projected to Lead During the Forecast Period
4.6 Train Battery Market, by Advance Train
Figure 16 Fully Battery Operated Trains Segment Projected to Lead During the Forecast Period
4.7 Train Battery Market, by Region
Figure 17 Asia-Pacific Projected to Lead the Market During the Forecast Period

5 Market Overview
5.1 Introduction
5.2 Years Considered
5.3 Market Dynamics
Figure 18 Market Dynamics: Train Battery Market
5.3.1 Drivers
5.3.1.1 Emission Regulations to Increase the Demand for Energy-Efficient Transportation Systems
Figure 19 Rolling Stock Emission Regulations Outlook, 2014-2030
5.3.1.2 Expansion of Railway Networks
Table 3 Upcoming Key Rail Projects, by Country
5.3.2 Restraints
5.3.2.1 High Capital Investment and Operating Cost of High-Speed Rail Network
5.3.3 Opportunities
5.3.3.1 Aggressive Plans for Train Electrification Coupled with Increasing Privatization
5.3.4 Challenges
5.3.4.1 Adoption of Hybrid Trains and Hydrogen Fuel Cell Trains
5.3.4.2 Increase in Battery Capacity and Installation Requirements
5.4 Impact of COVID-19 on Rolling Stock
5.4.1 COVID-19 Health Assessment
Figure 20 COVID-19 Propagation: Select Countries
5.5 Train Battery Market Scenario
Figure 21 Train Battery Market Scenario, 2018-2030 (‘000 USD)
5.5.1 Most Likely/Realistic Scenario
Table 4 Realistic Scenario - Train Battery Market, by Region, 2018-2030 (‘000 USD)
5.5.2 High COVID-19 Impact Scenario
Table 5 High COVID-19 Impact Scenario - Train Battery Market, by Region, 2018-2030 (‘000 USD)
5.5.3 Low COVID-19 Impact Scenario
Table 6 Low COVID-19 Impact Scenario - Train Battery Market, by Region, 2018-2030 (‘000 USD)
5.6 Revenue Shift Driving Market Growth
5.7 Pricing Analysis
Table 7 Average Prices of Rail Battery Types, 2019
5.8 Technological Analysis
5.8.1 Overview
5.8.1.1 Mitrac Pulse Traction Battery
5.8.1.2 MRX Nickel Technology Battery
5.8.1.3 Akasystem - Lithium Ion Battery
5.8.1.4 Novel Battery Technology
5.8.1.5 ABB - High-Power On-Board Energy Storage System
5.9 Ecosystem
Figure 22 Ecosystem: Train Battery Market
5.10 Supply Chain
Figure 23 Supply Chain Analysis: Train Battery Market

6 Train Battery Market, by Battery Type
6.1 Introduction
6.1.1 Research Methodology
6.1.2 Assumptions/Limitations
6.1.3 Industry Insights
Figure 24 Train Battery Market, by Battery Type, 2020 Vs. 2030 (‘000 USD)
Table 8 Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 9 Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
6.2 Lead Acid Battery
6.2.1 Low Cost and High Reliability to Drive Demand
Table 10 Lead Acid Battery Market, by Region, 2018-2030 (Units)
Table 11 Lead Acid Battery Market, by Region, 2018-2030 (‘000 USD)
6.3 Nickel Cadmium Battery
6.3.1 High Energy Density and Temperature Resistivity to Drive Demand
Table 12 Nickel Cadmium Battery Market, by Region, 2018-2030 (Units)
Table 13 Nickel Cadmium Battery Market, by Region, 2018-2030 (‘000 USD)
6.4 Lithium Ion Battery
6.4.1 High Energy Density and Zero Maintenance to Drive Demand
Table 14 Lithium Ion Battery Market, by Region, 2018-2030 (Units)
Table 15 Lithium Ion Battery Market, by Region, 2018-2030 (‘000 USD)

7 Train Battery Market, by Battery Technology
7.1 Introduction
7.1.1 Research Methodology
7.1.2 Assumptions/Limitations
7.1.3 Industry Insights
Figure 25 Train Battery Market, by Battery Technology, 2020 Vs. 2030 (Units)
Table 16 Train Battery Market, by Battery Technology, 2018-2030 (Units)
7.2 Conventional Lead Acid Battery
7.2.1 High Current Capability of Conventional Lead Acid Battery
Table 17 Conventional Lead Acid Battery Market, by Region, 2018-2030 (Units)
7.3 Valve Regulated Lead Acid (VRLA) Battery
7.3.1 Reliability and Maintenance Are Expected to Drive Demand
Table 18 VRLA Battery Market, by Region, 2018-2030 (Units)
7.4 Gel Tubular Lead Acid Battery
7.4.1 High Current Applications Expected to Increase Demand
Table 19 Gel Tubular Lead Acid Battery Market, by Region, 2018-2030 (Units)
7.5 Sinter/PNE Nickel Cadmium Battery
7.5.1 Reliability and High Power Applications Expected to Drive Demand
Table 20 Sinter/PNE Ni-Cd Battery Market, by Region, 2018-2030 (Units)
7.6 Pocket Plate Nickel Cadmium Battery
7.6.1 Low Maintenance and Efficiency Expected to Drive Demand
Table 21 Pocket Plate Ni-Cd Train Battery Market, by Region, 2018-2030 (Units)
7.7 Fiber/PNE Nickel Cadmium Battery
7.7.1 High Temperature Resistivity and Low Weight Expected to Drive Demand
Table 22 Fiber/PNE Ni-Cd Train Battery Market, by Region, 2018-2030 (Units)
7.8 Lithium Ion Battery
7.8.1 Low Self-Discharge and High Energy Density to Drive Demand
Table 23 Lithium Ion Train Battery Market, by Region, 2018-2030 (Units)

8 Train Battery Market, by Rolling Stock
8.1 Introduction
8.1.1 Research Methodology
8.1.2 Assumptions/Limitations
8.1.3 Industry Insights
Figure 26 Train Battery Market, by Rolling Stock, 2020 Vs. 2030 (‘000 USD)
Table 24 Train Battery Market, by Rolling Stock, 2018-2030 (Units)
Table 25 Train Battery Market, by Rolling Stock, 2018-2030 (000’ USD)
8.2 Diesel Locomotives
8.2.1 Freight Trains Are Expected to Drive Demand
Table 26 Diesel Locomotives Battery Market, by Region, 2018-2030 (Units)
Table 27 Diesel Locomotives Battery Market, by Region, 2018-2030 (‘000 USD)
8.3 Diesel Multiple Units (DMUs)
8.3.1 Urban Rail Network to Drive the Demand
Table 28 DMUs Battery Market, by Region, 2018-2030 (Units)
Table 29 DMUs Battery Market, by Region, 2018-2030 (‘000 USD)
8.4 Electric Locomotives
8.4.1 Low Maintenance Cost and Higher Efficiency to Drive Demand
Table 30 Electric Locomotives Battery Market, by Region, 2018-2030 (Units)
Table 31 Electric Locomotives Battery Market, by Region, 2018-2030 (‘000 USD)
8.5 Electric Multiple Units (EMUs)
8.5.1 Long Distance Travelling Expected to Drive Demand
Table 32 Emus Battery Market, by Region, 2018-2030 (Units)
Table 33 Emus Battery Market, by Region, 2018-2030 (‘000 USD)
8.6 Metros
8.6.1 Expansion of Urban Rail Expected to Drive Demand
Table 34 Metros Battery Market, by Region, 2018-2030 (Units)
Table 35 Metros Battery Market, by Region, 2018-2030 (‘000 USD)
8.7 High-Speed Trains
8.7.1 Increase in Infrastructure and Faster Mode of Transportation Expected to Drive Demand
Table 36 High-Speed Trains Battery Market, by Region, 2018-2030 (Units)
Table 37 High Speed Trains Battery Market, by Region, 2018-2030 (‘000 USD)
8.8 Light Rails/Trams/Monorails
8.8.1 Rapid Urbanization to Drive the Demand
Table 38 Light Rails/Trams/Monorails Battery Market, by Region, 2018-2030 (Units)
Table 39 Light Rails/Trams/Monorails Battery Market, by Region, 2018-2030 (‘000 USD)
8.9 Passenger Coaches
8.9.1 Increase in Rail Expansion Expected to Drive Demand
Table 40 Passenger Coaches Battery Market, by Region, 2018-2030 (Units)
Table 41 Passenger Coaches Battery Market, by Region, 2018-2030 (‘000 USD)

9 Train Battery Market, by Application
9.1 Introduction
9.1.1 Research Methodology
9.1.2 Assumptions/Limitations
9.1.3 Industry Insights
Figure 27 Train Battery Market, by Application, 2020 Vs. 2030 (‘000 USD)
Table 42 Train Battery Market, by Application, 2018-2030 (Units)
Table 43 Train Battery Market, by Application, 2018-2030 (‘000 USD)
9.2 Starter Battery
9.2.1 Diesel & Hybrid Locomotives Are Expected to Drive Demand
Table 44 Starter Battery Market, by Region, 2018-2030 (Units)
Table 45 Starter Battery Market, by Region, 2018-2030 (‘000 USD)
9.3 Auxiliary Function Battery (HVAC, Doors, Infotainment)
9.3.1 Metro & High-Speed Trains to Drive Demand for Auxiliary Function Batteries
Table 46 Auxiliary Function Battery Market, by Region, 2018-2030 (Units)
Table 47 Auxiliary Function Battery Market, by Region, 2018-2030 (‘000 USD)

10 Advance Train Battery Market, by Train Type
10.1 Introduction
10.1.1 Research Methodology
10.1.2 Assumptions/Limitations
10.1.3 Industry Insights
Figure 28 Advance Train Battery Market, by Train Type, 2020 Vs. 2030 (‘000 USD)
Table 48 Advance Train Battery Market, by Train Type, 2025-2030 (Units)
Table 49 Advance Train Battery Market, by Train Type, 2025-2030 (‘000 USD)
10.2 Autonomous Trains
10.2.1 Technological Advancements to Drive Demand
Table 50 Autonomous Trains Battery Market, by Region, 2025-2030 (Units)
Table 51 Autonomous Trains Battery Market, by Region, 2025-2030 (‘000 USD)
10.3 Hybrid Locomotives
10.3.1 Hydrogen Fuel Cell Trains and Regulations to Drive Demand
Table 52 Hybrid Locomotives Battery Market, by Region, 2025-2030 (Units)
Table 53 Hybrid Locomotives Battery Market, by Region, 2025-2030 (‘000 USD)
10.4 Fully Battery Operated Trains
10.4.1 Catenary Free Lines to Drive the Demand
Table 54 Fully Battery Operated Trains Battery Market, by Region, 2025-2030 (Units)
Table 55 Fully Battery Operated Trains Battery Market, by Region, 2025-2030 (‘000 USD)

11 Train Battery Market, by Region
11.1 Introduction
Figure 29 Train Battery Market: Asia-Pacific Projected to Grow at the Highest CAGR (2020-2030)
11.1.1 Research Methodology
11.1.2 Assumptions
Figure 30 Industry Insights
Figure 31 Train Battery Market, by Region, 2020 Vs. 2030 (‘000 USD)
Table 56 Train Battery Market, by Region, 2018-2030 (Units)
Table 57 Train Battery Market, by Region, 2018-2030 (‘000 USD)
11.2 Asia-Pacific
Figure 32 Asia-Pacific Train Battery Market Snapshot
Table 58 Asia-Pacific Train Battery Market, by Country, 2018-2030 (Units)
Table 59 Asia-Pacific Train Battery Market, by Country, 2018-2030 (‘000 USD)
11.2.1 China
11.2.1.1 High-Speed Trains Are Expected to Drive the Market
Table 60 China Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 61 China Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.2.2 India
11.2.2.1 Expansion and Electrification of Rail Networks Expected to Drive Demand
Table 62 India Train Battery Market, by Battery Type, 2018-2030 (‘000 Units)
Table 63 India Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.2.3 Japan
11.2.3.1 High-Speed Emus Are Projected to Drive Demand
Table 64 Japan Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 65 Japan Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.2.4 South Korea
11.2.4.1 Strong Urban Rail Network to Drive Demand
Table 66 South Korea Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 67 South Korea Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.3 Europe
Figure 33 Europe Train Battery Market Snapshot
Table 68 Europe Train Battery Market, by Country, 2018-2030 (Units)
Table 69 Europe Train Battery Market, by Country, 2018-2030 (‘000 USD)
11.3.1 France
11.3.1.1 Rapid Developments in High-Speed Rail Expected to Boost Demand
Table 70 France Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 71 France Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.3.2 Germany
11.3.2.1 Short Distance Rail Transportation to Drive Demand
Table 72 Germany Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 73 Germany Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.3.3 Italy
11.3.3.1 Increase in Demand for Batteries for Emus to Drive Market
Table 74 Italy Train Battery Market, by Battery Type, 2018- 2030 (Units)
Table 75 Italy Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.3.4 Spain
11.3.4.1 High-Speed Trains to Drive Future Demand
Table 76 Spain Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 77 Spain Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.3.5 UK
11.3.5.1 Urban Rail Developments to Drive Future Demand
Table 78 UK Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 79 UK Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.3.6 Switzerland
11.3.6.1 Passenger Trains to Drive Demand for Batteries
Table 80 Switzerland Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 81 Switzerland Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.3.7 Poland
11.3.7.1 Intercity Trains to Drive Demand for Train Batteries
Table 82 Poland Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 83 Poland Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.3.8 Sweden
11.3.8.1 Rising Demand for Emus and Passenger Trains to Drive Market
Table 84 Sweden Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 85 Sweden Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.4 North America
Figure 34 North America Train Battery Market, by Country, 2020 vs 2030 (‘000 USD)
Table 86 North America Train Battery Market, by Country, 2018-2030 (Units)
Table 87 North America Train Battery Market, by Country, 2018-2030 (‘000 USD)
11.4.1 US
11.4.1.1 Demand for Diesel Locomotives to Drive Market
Table 88 US Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 89 US Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.4.2 Canada
11.4.2.1 Commuter Trains Such as Metros and Passenger Rails Are Projected to Drive Demand for Train Batteries
Table 90 Canada Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 91 Canada Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.4.3 Mexico
11.4.3.1 Catenary Free Rail Track Expected to Drive Market
Table 92 Mexico Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 93 Mexico Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.5 Rest of the World (RoW)
Figure 35 Row: Train Battery Market, by Country, 2020 vs 2030 (‘000 USD)
Table 94 Row Train Battery Market, by Country, 2018-2030 (Units)
Table 95 Row Train Battery Market, by Country, 2018-2030 (‘000 USD)
11.5.1 Russia
11.5.1.1 Demand for Low Operating Temperature Batteries to Drive Market
Table 96 Russia Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 97 Russia Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)
11.5.2 Brazil
11.5.2.1 Demand for High Power Density Batteries to Drive Market
Table 98 Brazil Train Battery Market, by Battery Type, 2018-2030 (Units)
Table 99 Brazil Train Battery Market, by Battery Type, 2018-2030 (‘000 USD)

12 Recommendations from the Publisher
12.1 Asia-Pacific is the Potential Market for Train Battery Manufacturers to Focus For
12.2 Battery Technologies with High Energy Density Offered at an Economic Cost is the Need of the Future
12.3 Conclusion

13 Competitive Landscape
13.1 Overview
13.2 Market Evaluation Framework
Figure 36 Market Evaluation Framework: Train Battery Market
13.3 Train Battery Market: Market Ranking Analysis
Figure 37 Train Battery Market Ranking Analysis, 2019
Figure 38 Companies Adopted New Product Developments/Partnerships/Agreements/Supply Contracts/Collaborations/Joint Ventures as the Key Growth Strategies, 2017-2019
13.4 Competitive Scenario
13.4.1 New Product Developments/Launches
Table 100 New Product Developments/Launches (2017-2020)
13.4.2 Expansions
Table 101 Expansions, (2017-2019)
13.4.3 Partnerships/Contracts/Acquisitions
Table 102 Partnerships/Supply Contracts/Acquisitions, (2017-2019)
13.5 Right to Win

14 Company Evaluation Matrix and Company Profiles
14.1 Market Evaluation Framework
14.1.1 Terminology
14.1.2 Stars
14.1.3 Emerging Leaders
14.1.4 Pervasive
14.1.5 Emerging Companies
14.2 Company Evaluation Matrix for Train Battery Manufacturers
Figure 39 Train Battery Market: Company Evaluation Matrix (2019)
14.3 Strength of Product Portfolio
Figure 40 Strength of Product Portfolio of Top Players in Train Battery Market
14.4 Business Strategy Excellence
Figure 41 Business Strategy Excellence of Top Players in Train Battery Market

15 Company Profiles
(Business Overview, Products Offered, Recent Developments, SWOT Analysis, Analyst's View)*
15.1 Enersys
Figure 42 Enersys: Company Snapshot
Table 103 Enersys: Organic Developments (New Product Developments/Expansions)
Table 104 Enersys: Inorganic Developments
15.2 Saft
Figure 43 Saft: Company Snapshot
Table 105 Saft: Organic Developments (New Product Developments/Expansions)
Table 106 Saft: Inorganic Developments
15.3 GS Yuasa Corporation
Figure 44 GS Yuasa Corporation: Company Snapshot
Table 107 GS Yuasa Corporation: Organic Developments
Table 108 GS Yuasa Corporation: Inorganic Developments
15.4 Exide Industries Ltd.
Figure 45 Exide Industries Ltd.: Company Snapshot
Table 109 Exide Industries Ltd.: Organic Developments (New Product Developments/ Expansions)
Table 110 Exide Industries Ltd.: Inorganic Developments
15.5 Amara Raja Batteries Ltd.
Figure 46 Amara Raja Batteries Ltd.: Company Snapshot
Table 111 Amara Raja Batteries Ltd.: Organic Developments (New Product Developments/Expansions)
15.6 Hoppecke Batterien GmbH & Co. KG
Table 112 Hoppecke Batterien GmbH & Co. KG: Organic Developments (New Product Developments/Expansions)
Table 113 Hoppecke Batterien GmbH & Co. KG: Inorganic Developments
15.7 SEC Battery
15.8 First National Battery
15.9 Power & Industrial Battery Systems GmbH
*Details on Business Overview, Products Offered, Recent Developments, SWOT Analysis, Analyst's View Might Not be Captured in Case of Unlisted Companies.
15.10 Additional Companies
15.10.1 Hitachi
15.10.1.1 Business Overview
15.10.2 East Penn Manufacturing Company
15.10.2.1 Business Overview
15.10.2.2 Products Offered
15.10.3 AEG Power Solutions
15.10.3.1 Business Overview
15.10.3.2 Products Offered
15.10.4 Systems Sunlight
15.10.4.1 Business Overview
15.10.4.2 Products Offered
15.10.5 The Furukawa Battery Co. Ltd.
15.10.5.1 Business Overview
15.10.5.2 Products Offered
15.10.6 Hunan Fengri Power & Electric Co. Ltd.
15.10.6.1 Business Overview
15.10.6.2 Products Offered
15.10.7 China Shoto
15.10.7.1 Business Overview
15.10.7.2 Products Offered
15.10.8 Coslight India
15.10.8.1 Business Overview
15.10.8.2 Products Offered
15.10.9 Shield Batteries Limited
15.10.9.1 Business Overview
15.10.9.2 Products Offered
15.10.10 Akasol AG
15.10.10.1 Business Overview
15.10.10.2 Products Offered
15.10.11 DMS Technologies
15.10.11.1 Business Overview
15.10.11.2 Products Offered
15.10.12 National Railway Supply
15.10.12.1 Business Overview
15.10.12.2 Products Offered
15.10.13 LeClanche
15.10.13.1 Business Overview
15.10.13.2 Products Offered

16 Appendix
16.1 Currency & Pricing
Table 114 Currency Exchange Rates (Wrt Per USD)
16.2 Key Insights of Industry Experts
16.3 Discussion Guide
16.4 Knowledge Store: The Subscription Portal
16.5 Available Customizations
16.5.1 Train Battery Market, by Application, by Rolling Stock
16.5.1.1 Engine Starters
16.5.1.2 Auxiliary Functions
16.5.2 Train Battery Market, by Rolling Stock, by Battery Type
16.5.2.1 Lead Acid
16.5.2.2 Nickel-Cadmium
16.5.2.3 Lithium-Ion
16.6 Related Reports
16.7 Author Details

Note: Product cover images may vary from those shown

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  • AEG Power Solutions
  • Akasol AG
  • Amara Raja Batteries Ltd.
  • China Shoto
  • Coslight India
  • DMS Technologies
  • East Penn Manufacturing Company
  • Enersys
  • Exide Industries Ltd.
  • First National Battery
  • GS Yuasa Corporation
  • Hitachi
  • Hoppecke Batterien GmbH & Co. KG
  • Hunan Fengri Power & Electric Co. Ltd.
  • LeClanche
  • National Railway Supply
  • Power & Industrial Battery Systems GmbH
  • Saft
  • SEC Battery
  • Shield Batteries Limited
  • Systems Sunlight
  • The Furukawa Battery Co. Ltd.
Note: Product cover images may vary from those shown

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