Global Electric Vehicle Battery Reuse and Recycling Market Outlook, 2030

2025

Global Electric Vehicle Battery Reuse and Recycling Market Outlook, 2030

Name: Global Electric Vehicle Battery Reuse and Recycling Market Outlook, 2030
Brand: Bonafide Research
SKU: 92000808
Price: 3450 USD
Availability: InStock
Rating: 5 (113.35 reviews)

The global EV battery reuse and recycling market will reach $5,391M, fueled by sustainability efforts and circular economy initiatives.

Bonafide Trust
21-03-2025
Pages : 164
Figures : 80
Tables : 83
Region : Global
Category : Energy & Utility
Power storage & Backup

Schedule a Call

Buy Now Get Free sample

Request new version

Request for updated version of the report at the same price

Order Now

The Global Electric Vehicle (EV) Battery Reuse and Recycling Market is witnessing exponential growth, driven by the rapid electrification of the transportation sector and the increasing need for sustainable battery lifecycle management. This market addresses the growing challenge of end-of-life EV batteries, which contain valuable materials like lithium, cobalt, nickel, and manganese but also pose environmental risks if improperly disposed. The market encompasses a dual approach: repurposing batteries for secondary applications and recovering valuable materials through recycling. Battery reuse involves repurposing retired EV batteries for less demanding applications, such as stationary energy storage, backup power systems, and low-speed electric vehicles. This extends the lifespan of batteries, reduces waste, and creates new revenue streams. Battery recycling, on the other hand, focuses on recovering valuable materials from spent EV batteries, reducing the reliance on virgin resources, and minimizing the environmental impact of mining. Various recycling technologies are employed, including hydrometallurgy, pyrometallurgy, and direct recycling, each with its own advantages and limitations in terms of material recovery rates and environmental impact. The market is propelled by several factors, including the surge in EV sales, government regulations promoting battery recycling and extended producer responsibility, growing environmental concerns about battery disposal, and the economic incentives of material recovery. Furthermore, advancements in battery technology, recycling processes, and second-life applications are contributing to the market's expansion. However, challenges remain, such as the lack of standardized battery designs, the complexity of recycling processes, safety concerns related to handling and transporting spent batteries, and the need for cost-effective recycling solutions. Despite these challenges, the EV Battery Reuse and Recycling Market is poised for significant growth in the coming years, as the number of retired EV batteries increases and the demand for sustainable battery lifecycle management solutions intensifies. This market is crucial for creating a circular economy for EV batteries, reducing environmental impact, and ensuring a secure supply of critical materials for the growing EV industry.

Global EV battery reuse and recycling market will reach $8,391.8 million by 2030, growing by 50.2% annually over 2025-2030 driven by reducing battery waste and costly battery disposal, demand for electric vehicles, and focus on sustainable transportation. Synergy best describes the complex interplay of factors shaping the Global Electric Vehicle Battery Reuse and Recycling Market. Market trends are synergistically aligning towards a circular economy model for EV batteries, driven by increasing EV adoption and the need for sustainable lifecycle management. Market drivers synergize to propel market growth: rising EV sales generate a growing volume of end-of-life batteries, while stringent environmental regulations and extended producer responsibility schemes mandate responsible recycling. Growing awareness of resource scarcity and the environmental impact of mining fuels demand for recovered materials, further incentivizing recycling. Advancements in recycling technologies and the development of cost-effective second-life applications create a synergistic relationship, making both reuse and recycling economically viable. Trade programs and government initiatives synergistically support market development by providing funding for research and development, promoting standardization of battery designs, and facilitating international collaboration on recycling technologies. These programs often incentivize the adoption of sustainable practices and encourage the development of a robust recycling infrastructure. Furthermore, collaborations between battery manufacturers, EV producers, recycling companies, and research institutions synergize to accelerate innovation and optimize the entire battery lifecycle. The market also sees a synergy between the growing renewable energy sector and battery reuse, as repurposed EV batteries find applications in stationary energy storage systems, supporting the integration of renewable energy sources. Ultimately, the Global Electric Vehicle Battery Reuse and Recycling Market is driven by a powerful synergy of environmental concerns, economic incentives, technological advancements, and regulatory support, creating a dynamic ecosystem where sustainability and resource efficiency are paramount.

What's Inside a Bonafide Research`s industry report?

A Bonafide Research industry report provides in-depth market analysis, trends, competitive insights, and strategic recommendations to help businesses make informed decisions.

Download Sample

The Battery Type segment within the Global Electric Vehicle Battery Reuse and Recycling Market is a critical factor influencing the complexity and efficiency of both reuse and recycling processes. This segment categorizes batteries based on their chemical composition, a key determinant of their performance characteristics, lifespan, and recyclability. Currently, lithium-ion batteries dominate the EV market, but they encompass various chemistries, each with its own advantages and disadvantages. Lithium Cobalt Oxide (LCO) batteries, while offering high energy density, are less common in EVs due to their high cost and safety concerns. Lithium Manganese Oxide (LMO) batteries offer a good balance of power and energy density but have a shorter lifespan. Lithium Nickel Manganese Cobalt Oxide (NMC) batteries are becoming increasingly popular due to their high energy density and improved thermal stability. Lithium Iron Phosphate (LFP) batteries, known for their safety and long lifespan, are gaining traction, especially in the Chinese market. These different chemistries present varying challenges for reuse and recycling. For reuse, the remaining capacity and state of health of the battery are crucial, and these parameters vary significantly depending on the battery chemistry and its usage history. For recycling, the chemical composition dictates the most effective recycling process. Hydrometallurgical processes are commonly used for recovering valuable metals like lithium, cobalt, nickel, and manganese from lithium-ion batteries, but the specific process parameters need to be optimized for each battery chemistry. Pyrometallurgical processes, while simpler and less sensitive to battery chemistry, have lower recovery rates and can lead to environmental concerns. Direct recycling, which aims to recover battery components directly without breaking down the chemical structure, is gaining attention but is still under development and faces challenges in separating different battery chemistries. The Battery Type segment is also influenced by the evolving landscape of battery technology. Solid-state batteries, which promise improved safety and energy density, are emerging as a potential future technology, but their recyclability is still being investigated. The increasing complexity of battery designs, with different module configurations and packaging, also adds to the challenges of reuse and recycling. Furthermore, the lack of standardization in battery designs across different EV manufacturers makes it difficult to develop universal recycling processes.

The EV Type segment within the Global Electric Vehicle Battery Reuse and Recycling Market plays a significant role in determining the volume and characteristics of end-of-life EV batteries, thereby influencing the dynamics of the reuse and recycling market. This segment categorizes electric vehicles based on their type, including Battery Electric Vehicles (BEVs), Plug-in Hybrid Electric Vehicles (PHEVs), and Hybrid Electric Vehicles (HEVs). BEVs, which rely solely on batteries for propulsion, represent the largest and fastest-growing segment, resulting in a substantial volume of end-of-life batteries entering the reuse and recycling stream. BEV batteries typically have larger capacities compared to PHEV or HEV batteries, making them attractive for second-life applications like stationary energy storage. PHEVs, which combine a battery with an internal combustion engine, have smaller battery packs than BEVs but still contribute significantly to the overall volume of retired batteries. PHEV batteries, due to their smaller size, may be more suitable for certain niche reuse applications or for recycling processes that are optimized for smaller battery packs. HEVs, which use a battery in conjunction with an internal combustion engine but cannot be plugged in, have the smallest battery packs among the three EV types. While HEV batteries contribute to the overall volume of retired batteries, their smaller size and different charging/discharging cycles can influence their suitability for reuse or recycling. The EV Type segment is crucial for forecasting the future availability of end-of-life EV batteries. As BEV adoption continues to rise, the volume of retired BEV batteries will increase significantly, creating both opportunities and challenges for the reuse and recycling market. The characteristics of the batteries, such as their size, chemistry, and state of health, will vary depending on the EV type and usage patterns, requiring tailored approaches for reuse and recycling. Furthermore, the evolution of EV technology, such as the development of longer-range BEVs and more efficient PHEVs, will impact the size and composition of future EV batteries, influencing the long-term dynamics of the reuse and recycling market.

The End Use segment within the Global Electric Vehicle Battery Reuse and Recycling Market defines the various applications and industries that utilize repurposed or recycled EV batteries, playing a crucial role in driving market growth and establishing a circular economy for battery materials. This segment encompasses a range of applications for reused batteries, including Stationary Energy Storage (SES), which represents a significant opportunity. Repurposed EV batteries can be deployed in grid-scale storage systems, residential energy storage, and commercial and industrial backup power solutions, supporting the integration of renewable energy sources and enhancing grid stability. Other reuse applications include powering low-speed electric vehicles (LSEVs) like golf carts and neighborhood electric vehicles, providing a second life for batteries in less demanding applications. Repurposed batteries can also be used in backup power systems for critical infrastructure, such as hospitals and data centers, ensuring reliable power supply during outages. Beyond reuse, the End Use segment also encompasses the recovery of valuable materials through recycling. Recycled battery materials, such as lithium, cobalt, nickel, and manganese, can be used to manufacture new EV batteries, reducing the reliance on virgin resources and minimizing the environmental impact of mining. This closed-loop recycling process is essential for creating a sustainable supply chain for the growing EV industry. The recovered materials can also be used in other industries, such as electronics and battery manufacturing, further contributing to resource efficiency. The End Use segment is influenced by several factors, including advancements in battery technology, the development of cost-effective reuse and recycling processes, and evolving market demand for energy storage and recycled materials. The growing adoption of renewable energy sources is driving the demand for SES solutions, creating a significant market opportunity for repurposed EV batteries. Furthermore, increasing environmental awareness and regulatory pressures are pushing manufacturers to adopt closed-loop recycling practices, boosting the demand for battery recycling services. The end-use segment is also shaped by collaborations between various stakeholders, including battery manufacturers, EV producers, recycling companies, and end-use industries. These collaborations are essential for developing and implementing effective reuse and recycling strategies, optimizing the utilization of retired EV batteries, and creating a sustainable battery ecosystem.

Make this report your own

Have queries/questions regarding a report

Take advantage of intelligence tailored to your business objective

Prashant Tiwari

Research Analyst

Don’t pay for what you don’t need. Save 30%

Customise your report by selecting specific countries or regions

Specify Scope Now

Table of Contents
1 Introduction 9
1.1 Industry Definition and Research Scope 9
1.1.1 Industry Definition 9
1.1.2 Research Scope 10
1.2 Research Methodology 13
1.2.1 Overview of Market Research Methodology 13
1.2.2 Market Assumption 14
1.2.3 Secondary Data 14
1.2.4 Primary Data 14
1.2.5 Data Filtration and Model Design 16
1.2.6 Market Size/Share Estimation 17
1.2.7 Research Limitations 18
1.3 Executive Summary 19
2 Market Overview and Dynamics 21
2.1 Market Size and Forecast 21
2.1.1 Impact of COVID-19 on World Economy 22
2.1.2 Impact of COVID-19 on the Market 25
2.2 Major Growth Drivers 27
2.3 Market Restraints and Challenges 32
2.4 Emerging Opportunities and Market Trends 35
2.5 PorterÃ¢â‚¬â„¢s Fiver Forces Analysis 39
3 Segmentation of Global Market by Category 43
3.1 Market Overview by Category 43
3.2 Reuse of EV Batteries 45
3.3 Recycling of EV Batteries 46
3.3.1 Hydro-metallurgical Process 48
3.3.2 Pyro-metallurgical Process 49
3.3.3 Other Processes 50
4 Segmentation of Global Market by Battery Type 51
4.1 Market Overview by Battery Type 51
4.2 Lithium-ion Batteries 53
4.3 Nickel-metal Hydride Batteries 54
4.4 Lead-acid Batteries 55
4.5 Other Battery Types 56
5 Segmentation of Global Market by EV Type 57
5.1 Market Overview by EV Type 57
5.2 Battery Electric Vehicle (BEV) 59
5.3 Hybrid Electric Vehicle (HEV) 60
5.4 Plug-in Hybrid Electric Vehicle (PHEV) 61
5.5 Fuel Cell Electric Vehicle (FCEV) 62
6 Segmentation of Global Market by End Use 63
6.1 Market Overview by End Use 63
6.2 Electric Cars 65
6.3 Electric Buses 66
6.4 Energy Storage Systems 67
6.5 Other End Uses 68
7 Segmentation of Global Market by Region 69
7.1 Geographic Market Overview 2020-2027 69
7.2 North America Market 2020-2027 by Country 73
7.2.1 Overview of North America Market 73
7.2.2 U.S. 76
7.2.3 Canada 80
7.2.4 Mexico 82
7.3 European Market 2020-2027 by Country 84
7.3.1 Overview of European Market 84
7.3.2 UK 87
7.3.3 France 89
7.3.4 Germany 91
7.3.5 Spain 93
7.3.6 Italy 95
7.3.7 Russia 97
7.3.8 Rest of European Market 99
7.4 Asia-Pacific Market 2020-2027 by Country 101
7.4.1 Overview of Asia-Pacific Market 101
7.4.2 China 104
7.4.3 Japan 107
7.4.4 India 110
7.4.5 Australia 112
7.4.6 South Korea 114
7.4.7 Rest of APAC Region 116
7.5 South America Market 2020-2027 by Country 118
7.5.1 Argentina 121
7.5.2 Brazil 123
7.5.3 Chile 125
7.5.4 Rest of South America Market 127
7.6 MEA Market 2020-2027 by Country 128
7.6.1 UAE 131
7.6.2 Saudi Arabia 133
7.6.3 South Africa 135
7.6.4 Other National Markets 137
8 Competitive Landscape 138
8.1 Overview of Key Vendors 138
8.2 New Product Launch, Partnership, Investment, and M&A 141
8.3 Company Profiles 142
ACCUREC Recycling GmbH 142
American Manganese Inc. 144
Battery Solutions 145
BMW AG 146
China Aviation Lithium Battery Company Limited 147
G & P Service 148
LI-CYCLE CORP. 149
Nissan Motor Co. Ltd. 150
Recupyl 151
Retriev Technologies 152
SITRASA 153
SNAM S.A.S. 154
Tesla Inc. 155
Toshiba Corporation 156
Umicore 157
9 Investing in Global Market: Risk Assessment and Management 158
9.1 Risk Evaluation of Global Market 158
9.2 Critical Success Factors (CSFs) 161
Related Reports and Products 164

Table 1. Snapshot of Global Electric Vehicle Battery Reuse and Recycling Market in Balanced Perspective, 2020-2027 20
Table 2. Growth Rate of World Real GDP, 2017-2021 23
Table 3. Main Product Trends and Market Opportunities in Global Electric Vehicle Battery Reuse and Recycling Market 35
Table 4. Global Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 43
Table 5. Global Electric Vehicle Battery Reuse and Recycling Market: Recycling of EV Batteries by Process, 2017-2027, $ mn 47
Table 6. Global Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 51
Table 7. Global Electric Vehicle Battery Reuse and Recycling Market by EV Type, 2017-2027, $ mn 57
Table 8. Global Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 63
Table 9. Global Electric Vehicle Battery Reuse and Recycling Market by Region, 2017-2027, $ mn 70
Table 10. Leading National Electric Vehicle Battery Reuse and Recycling Market, 2020 and 2027, $ mn 72
Table 11. North America Electric Vehicle Battery Reuse and Recycling Market by Country, 2017-2027, $ mn 75
Table 12. U.S. Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 78
Table 13. U.S. Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 78
Table 14. U.S. Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 78
Table 15. Canada Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 81
Table 16. Canada Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 81
Table 17. Canada Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 81
Table 18. Mexico Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 83
Table 19. Mexico Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 83
Table 20. Mexico Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 83
Table 21. Europe Electric Vehicle Battery Reuse and Recycling Market by Country, 2017-2027, $ mn 86
Table 22. UK Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 88
Table 23. UK Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 88
Table 24. UK Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 88
Table 25. France Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 90
Table 26. France Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 90
Table 27. France Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 90
Table 28. Germany Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 92
Table 29. Germany Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 92
Table 30. Germany Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 92
Table 31. Spain Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 94
Table 32. Spain Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 94
Table 33. Spain Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 94
Table 34. Italy Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 96
Table 35. Italy Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 96
Table 36. Italy Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 96
Table 37. Russia Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 98
Table 38. Russia Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 98
Table 39. Russia Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 98
Table 40. Electric Vehicle Battery Reuse and Recycling Market in Rest of Europe by Country, 2017-2027, $ mn 100
Table 41. APAC Electric Vehicle Battery Reuse and Recycling Market by Country, 2017-2027, $ mn 103
Table 42. China Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 106
Table 43. China Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 106
Table 44. China Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 106
Table 45. Japan Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 109
Table 46. Japan Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 109
Table 47. Japan Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 109
Table 48. India Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 111
Table 49. India Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 111
Table 50. India Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 111
Table 51. Australia Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 113
Table 52. Australia Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 113
Table 53. Australia Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 113
Table 54. South Korea Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 115
Table 55. South Korea Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 115
Table 56. South Korea Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 115
Table 57. Electric Vehicle Battery Reuse and Recycling Market in Rest of APAC by Country/Region, 2017-2027, $ mn 117
Table 58. South America Electric Vehicle Battery Reuse and Recycling Market by Country, 2017-2027, $ mn 120
Table 59. Argentina Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 122
Table 60. Argentina Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 122
Table 61. Argentina Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 122
Table 62. Brazil Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 124
Table 63. Brazil Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 124
Table 64. Brazil Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 124
Table 65. Chile Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 126
Table 66. Chile Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 126
Table 67. Chile Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 126
Table 68. MEA Electric Vehicle Battery Reuse and Recycling Market by Country, 2017-2027, $ mn 130
Table 69. UAE Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 132
Table 70. UAE Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 132
Table 71. UAE Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 132
Table 72. Saudi Arabia Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 134
Table 73. Saudi Arabia Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 134
Table 74. Saudi Arabia Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 134
Table 75. South Africa Electric Vehicle Battery Reuse and Recycling Market by Category, 2017-2027, $ mn 136
Table 76. South Africa Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2017-2027, $ mn 136
Table 77. South Africa Electric Vehicle Battery Reuse and Recycling Market by End Use, 2017-2027, $ mn 136
Table 78. ACCUREC Recycling GmbH: Company Snapshot 142
Table 79. ACCUREC Recycling GmbH: Business Segmentation 142
Table 80. ACCUREC Recycling GmbH: Product Portfolio 143
Table 81. ACCUREC Recycling GmbH: Revenue, 2017-2019, $ mn 143
Table 82. Risk Evaluation for Investing in Global Market, 2020-2027 159
Table 83. Critical Success Factors and Key Takeaways 162

Figure 1. Research Method Flow Chart 13
Figure 2. Breakdown of Primary Research 15
Figure 3. Bottom-up Approach and Top-down Approach for Market Estimation 17
Figure 4. Global Market Forecast in Optimistic, Conservative and Balanced Perspectives, 2020-2027 19
Figure 5. Global Electric Vehicle Battery Reuse and Recycling Market, 2017-2027, $ mn 21
Figure 6. Impact of COVID-19 on Business 25
Figure 7. Primary Drivers and Impact Factors of Global Electric Vehicle Battery Reuse and Recycling Market 27
Figure 8. World Electric Vehicle Market by Sales Value, 2019-2030, $ bn 30
Figure 9. World Electric Vehicle Market by Sales Volume, 2019-2030, million units 30
Figure 10. Share of Electric Vehicle Sales in Total Car Sales in Worldwide Market, 2019-2030, % 31
Figure 11. Primary Restraints and Impact Factors of Global Electric Vehicle Battery Reuse and Recycling Market 32
Figure 12. Investment Opportunity Analysis 36
Figure 13. PorterÃ¢â‚¬â„¢s Fiver Forces Analysis of Global Electric Vehicle Battery Reuse and Recycling Market 39
Figure 14. Breakdown of Global Electric Vehicle Battery Reuse and Recycling Market by Category, 2020-2027, % of Revenue 43
Figure 15. Contribution to Global 2021-2027 Cumulative Revenue by Category, Value ($ mn) and Share (%) 44
Figure 16. Global Electric Vehicle Battery Reuse and Recycling Market: Reuse of EV Batteries, 2017-2027, $ mn 45
Figure 17. Global Electric Vehicle Battery Reuse and Recycling Market: Recycling of EV Batteries, 2017-2027, $ mn 46
Figure 18. Global Electric Vehicle Battery Reuse and Recycling Market: Hydro-metallurgical Process, 2017-2027, $ mn 48
Figure 19. Global Electric Vehicle Battery Reuse and Recycling Market: Pyro-metallurgical Process, 2017-2027, $ mn 49
Figure 20. Global Electric Vehicle Battery Reuse and Recycling Market: Other Processes, 2017-2027, $ mn 50
Figure 21. Breakdown of Global Electric Vehicle Battery Reuse and Recycling Market by Battery Type, 2020-2027, % of Revenue 51
Figure 22. Contribution to Global 2021-2027 Cumulative Revenue by Battery Type, Value ($ mn) and Share (%) 52
Figure 23. Global Electric Vehicle Battery Reuse and Recycling Market: Lithium-ion Batteries, 2017-2027, $ mn 53
Figure 24. Global Electric Vehicle Battery Reuse and Recycling Market: Nickel-metal Hydride Batteries, 2017-2027, $ mn 54
Figure 25. Global Electric Vehicle Battery Reuse and Recycling Market: Lead-acid Batteries, 2017-2027, $ mn 55
Figure 26. Global Electric Vehicle Battery Reuse and Recycling Market: Other Battery Types, 2017-2027, $ mn 56
Figure 27. Breakdown of Global Electric Vehicle Battery Reuse and Recycling Market by EV Type, 2020-2027, % of Revenue 57
Figure 28. Contribution to Global 2021-2027 Cumulative Revenue by EV Type, Value ($ mn) and Share (%) 58
Figure 29. Global Electric Vehicle Battery Reuse and Recycling Market: Battery Electric Vehicle (BEV), 2017-2027, $ mn 59
Figure 30. Global Electric Vehicle Battery Reuse and Recycling Market: Hybrid Electric Vehicle (HEV), 2017-2027, $ mn 60
Figure 31. Global Electric Vehicle Battery Reuse and Recycling Market: Plug-in Hybrid Electric Vehicle (PHEV), 2017-2027, $ mn 61
Figure 32. Global Electric Vehicle Battery Reuse and Recycling Market: Fuel Cell Electric Vehicle (FCEV), 2017-2027, $ mn 62
Figure 33. Breakdown of Global Electric Vehicle Battery Reuse and Recycling Market by End Use, 2020-2027, % of Revenue 63
Figure 34. Contribution to Global 2021-2027 Cumulative Revenue by End Use, Value ($ mn) and Share (%) 64
Figure 35. Global Electric Vehicle Battery Reuse and Recycling Market: Electric Cars, 2017-2027, $ mn 65
Figure 36. Global Electric Vehicle Battery Reuse and Recycling Market: Electric Buses, 2017-2027, $ mn 66
Figure 37. Global Electric Vehicle Battery Reuse and Recycling Market: Energy Storage Systems, 2017-2027, $ mn 67
Figure 38. Global Electric Vehicle Battery Reuse and Recycling Market: Other End Uses, 2017-2027, $ mn 68
Figure 39. Global Market Snapshot by Region 69
Figure 40. Geographic Spread of Worldwide Electric Vehicle Battery Reuse and Recycling Market, 2020-2027, % of Revenue 70
Figure 41. Contribution to Global 2021-2027 Cumulative Revenue by Region, Value ($ mn) and Share (%) 71
Figure 42. North American Electric Vehicle Battery Reuse and Recycling Market, 2017-2027, $ mn 74
Figure 43. Breakdown of North America Electric Vehicle Battery Reuse and Recycling Market by Country, 2020 and 2027, % of Revenue 74
Figure 44. Contribution to North America 2021-2027 Cumulative Revenue by Country, Value ($ mn) and Share (%) 75
Figure 45. U.S. Electric Vehicle Battery Reuse and Recycling Market, 2017-2027, $ mn 77
Figure 46. Canada Electric Vehicle Battery Reuse and Recycling Market, 2017-2027, $ mn 80
Figure 47. Electric Vehicle Battery Reuse and Recycling Market in Mexico, 2017-2027, $ mn 82
Figure 48. European Electric Vehicle Battery Reuse and Recycling Market, 2017-2027, $ mn 85
Figure 49. Breakdown of European Electric Vehicle Battery Reuse and Recycling Market by Country, 2020 and 2027, % of Revenue 85
Figure 50. Contribution to Europe 2021-2027 Cumulative Revenue by Country, Value ($ mn) and Share (%) 86
Figure 51. Electric Vehicle Battery Reuse and Recycling Market in UK, 2017-2027, $ mn 87
Figure 52. Electric Vehicle Battery Reuse and Recycling Market in France, 2017-2027, $ mn 89
Figure 53. Electric Vehicle Battery Reuse and Recycling Market in Germany, 2017-2027, $ mn 91
Figure 54. Electric Vehicle Battery Reuse and Recycling Market in Spain, 2017-2027, $ mn 93
Figure 55. Electric Vehicle Battery Reuse and Recycling Market in Italy, 2017-2027, $ mn 95
Figure 56. Electric Vehicle Battery Reuse and Recycling Market in Russia, 2017-2027, $ mn 97
Figure 57. Electric Vehicle Battery Reuse and Recycling Market in Rest of Europe, 2017-2027, $ mn 99
Figure 58. Asia-Pacific Electric Vehicle Battery Reuse and Recycling Market, 2017-2027, $ mn 102
Figure 59. Breakdown of APAC Electric Vehicle Battery Reuse and Recycling Market by Country, 2020 and 2027, % of Revenue 102
Figure 60. Contribution to APAC 2021-2027 Cumulative Revenue by Country, Value ($ mn) and Share (%) 103
Figure 61. Electric Vehicle Battery Reuse and Recycling Market in China, 2017-2027, $ mn 105
Figure 62. Electric Vehicle Battery Reuse and Recycling Market in Japan, 2017-2027, $ mn 108
Figure 63. Electric Vehicle Battery Reuse and Recycling Market in India, 2017-2027, $ mn 110
Figure 64. Electric Vehicle Battery Reuse and Recycling Market in Australia, 2017-2027, $ mn 112
Figure 65. Electric Vehicle Battery Reuse and Recycling Market in South Korea, 2017-2027, $ mn 114
Figure 66. Electric Vehicle Battery Reuse and Recycling Market in Rest of APAC, 2017-2027, $ mn 116
Figure 67. South America Electric Vehicle Battery Reuse and Recycling Market, 2017-2027, $ mn 119
Figure 68. Breakdown of South America Electric Vehicle Battery Reuse and Recycling Market by Country, 2020 and 2027, % of Revenue 119
Figure 69. Contribution to South America 2021-2027 Cumulative Revenue by Country, Value ($ mn) and Share (%) 120
Figure 70. Electric Vehicle Battery Reuse and Recycling Market in Argentina, 2017-2027, $ mn 121
Figure 71. Electric Vehicle Battery Reuse and Recycling Market in Brazil, 2017-2027, $ mn 123
Figure 72. Electric Vehicle Battery Reuse and Recycling Market in Chile, 2017-2027, $ mn 125
Figure 73. Electric Vehicle Battery Reuse and Recycling Market in Rest of South America, 2017-2027, $ mn 127
Figure 74. Electric Vehicle Battery Reuse and Recycling Market in Middle East and Africa (MEA), 2017-2027, $ mn 129
Figure 75. Breakdown of MEA Electric Vehicle Battery Reuse and Recycling Market by Country, 2020 and 2027, % of Revenue 129
Figure 76. Contribution to MEA 2021-2027 Cumulative Revenue by Country, Value ($ mn) and Share (%) 130
Figure 77. Electric Vehicle Battery Reuse and Recycling Market in UAE, 2017-2027, $ mn 131
Figure 78. Electric Vehicle Battery Reuse and Recycling Market in Saudi Arabia, 2017-2027, $ mn 133
Figure 79. Electric Vehicle Battery Reuse and Recycling Market in South Africa, 2017-2027, $ mn 135
Figure 80. Growth Stage of Global Electric Vehicle Battery Reuse and Recycling Industry over the Forecast Period 138

Related Reports

One individual can access, store, display, or archive the report in Excel format but cannot print, copy, or share it. Use is confidential and internal only. License information

One individual can access, store, display, or archive the report in PDF format but cannot print, copy, or share it. Use is confidential and internal only. License information

Up to 10 employees in one region can store, display, duplicate, and archive the report for internal use. Use is confidential and printable. License information

All employees globally can access, print, copy, and cite data externally (with attribution to Bonafide Research). License information

Safe and Secure SSL Encrypted