Xiao Lin, Xue Wang, Bin Wu, Yingying Wang, Shuoyuan Zhang
Battery Swapping for Sustainable Transportation
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Erscheint vorauss. 15. Juli 2026
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Xiao Lin, Xue Wang, Bin Wu, Yingying Wang, Shuoyuan Zhang
Battery Swapping for Sustainable Transportation
- Gebundenes Buch
A unique book and first of its kind to introduce the battery swapping technology from market, economic, and global perspective.
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A unique book and first of its kind to introduce the battery swapping technology from market, economic, and global perspective.
Produktdetails
- Produktdetails
- Verlag: Wiley-VCH GmbH
- Artikelnr. des Verlages: 1135486 000
- Seitenzahl: 288
- Erscheinungstermin: 15. Juli 2026
- Englisch
- ISBN-13: 9783527354863
- ISBN-10: 3527354867
- Artikelnr.: 76117022
- Herstellerkennzeichnung
- Wiley-VCH GmbH
- Boschstraße 12
- 69469 Weinheim
- wiley-vch@kolibri360.de
- Verlag: Wiley-VCH GmbH
- Artikelnr. des Verlages: 1135486 000
- Seitenzahl: 288
- Erscheinungstermin: 15. Juli 2026
- Englisch
- ISBN-13: 9783527354863
- ISBN-10: 3527354867
- Artikelnr.: 76117022
- Herstellerkennzeichnung
- Wiley-VCH GmbH
- Boschstraße 12
- 69469 Weinheim
- wiley-vch@kolibri360.de
Dr. Xiao Lin, Founder and CEO of Botree Recycling Technologies, China, professor level senior engineer. Working in critical battery metals separation and purification technologies, revolutionary solution for EV and energy storage battery recycling and materials regeneration. Served clients cover >60% Chinese Li-ion battery recycling output capacity, >45% Global market. Finished 50+ research and commercial projects, granted prizes like national technology invention and national key practical technologies of environmental protection. Published 40 papers, been authorized 30+ patents, participated in the formulation of international and national standards. Member of National Technical Committee SAC/TC294 on Discarded or Disused Chemicals Disposal. Steering committee member of Global battery alliance (GBA) battery passport. Xue Wang, PhD, is Principal Analyst of Botree Cycling. She obtained her doctorate in Material Engineering from KU Leuven. Her research is focused on new metallurgical process technology and waste resource treatment technology. Responsible for the routine operations of the IEA HEV TCP Task 48 Battery Swapping, successfully organized four online workshops in 2023 focusing on battery swapping for electric two and three-wheelers, commercial vehicles, passenger EVs, as well as maritime and aviation.
1. Introduction
1.1 Background and Significance of the Report
1.2 Overview of the Battery Swapping Industry Development
1.3 Scope of Research and Main Contents (Two and Three-Wheelers, Passenger
Vehicles, Commercial Vehicles, Electric Ships, and eVTOL)
2. Impact of Battery Swapping on Global Energy Transition
2.1 Sustainable Development Goals and Pathways to Carbon Neutrality
2.2 Role of Battery Swapping in Reducing Greenhouse Gas Emissions
2.3 The Shift from Fossil Fuels to Electric Vehicles
2.4 Role of Battery Swapping in Vehicle-to-Grid (V2G) Integration
3. Market Overview of the Battery Swapping Industry
3.1 Analysis of Global Market Size and Growth Potential
3.2 Analysis of Key Regional Policy Environments
4. Advances in Battery Swapping Technology and Standardization
4.1 Core Breakthroughs and Latest R&D Dynamics in Battery Swapping
Technology
4.2 Current Status and Development of Domestic and International Swapping
Standards
4.3 Discussion on Interoperability Between International and Domestic
Swapping Standards
4.4 Construction of Security Assurance System and Operation & Maintenance
Management Mechanisms
5. Electric Two and Three-Wheeler Battery Swapping Business Models and Case
Studies
5.1 Overview of Battery Swapping Business Models for Electric Two and
Three-Wheelers
5.2 Key Enterprises and Battery Swapping Technologies
5.3 Case Studies of Representative Practices
5.4 Discussion on the Profitability of Business Models
5.5 Challenges and Development Trends
6. Passenger EVs Battery Swapping Business Models and Case Studies
6.1 Introduction to Battery Swapping Business Models for Passenger EVs
6.2 Core Enterprise Practices and Key Technologies
6.3 Analysis of Representative Cases
6.4 Examination of Business Model Profitability
6.5 Challenges and Future Directions
7. Commercial Vehicle Battery Swapping Business Models and Case Studies
7.1 Overview of Battery Swapping Modes for Commercial Vehicles
7.2 Practical Applications by Key Enterprises and Core Technologies
7.3 In-depth Case Studies
7.4 Evaluation of Business Model Financial Viability
7.5 Challenges and Growth Prospects
8. Electric Ship and Aviation Battery Swapping Business Models and Case
Studies
8.1 Introduction to Battery Swapping Business Models for Electric ship and
Aviation
8.2 Central Enterprise Practices and Critical Technologies
8.3 Study of Representative Cases
8.4 Assessment of Business Model Profitability
8.5 Challenges and Emerging Trends
9. Key Players and Strategic Positions in the Battery Swapping Ecosystem
9.1 Upstream Hardware and Software Suppliers
9.2 Midstream Battery Swapping Operators and Electric Transportation
Equipment Manufacturers
9.3 Downstream Market Applications and Services
10. Challenges and Opportunities
10.1 Challenges Faced by the Industry (Infrastructure Construction, Costs,
Safety, etc.)
10.2 Battery Swapping Industry Standardization
10.3 Technological Advancements and Policy Support Bringing Development
Opportunities
10.4 Future Market Demand Forecast and Market Penetration Rate Outlook
11. Policy Recommendations and Prospects
11.1 Policy Guidance and Incentive Measures Suggestions
11.2 Ways to Promote Technological Innovation and Market Expansion
11.3 Predictions and Speculations on the Future Development Trends of the
Global Battery Swapping Industry
11.4 Predictions and Speculations on the Future Development Trends of the
Global Battery Swapping Industry
1.1 Background and Significance of the Report
1.2 Overview of the Battery Swapping Industry Development
1.3 Scope of Research and Main Contents (Two and Three-Wheelers, Passenger
Vehicles, Commercial Vehicles, Electric Ships, and eVTOL)
2. Impact of Battery Swapping on Global Energy Transition
2.1 Sustainable Development Goals and Pathways to Carbon Neutrality
2.2 Role of Battery Swapping in Reducing Greenhouse Gas Emissions
2.3 The Shift from Fossil Fuels to Electric Vehicles
2.4 Role of Battery Swapping in Vehicle-to-Grid (V2G) Integration
3. Market Overview of the Battery Swapping Industry
3.1 Analysis of Global Market Size and Growth Potential
3.2 Analysis of Key Regional Policy Environments
4. Advances in Battery Swapping Technology and Standardization
4.1 Core Breakthroughs and Latest R&D Dynamics in Battery Swapping
Technology
4.2 Current Status and Development of Domestic and International Swapping
Standards
4.3 Discussion on Interoperability Between International and Domestic
Swapping Standards
4.4 Construction of Security Assurance System and Operation & Maintenance
Management Mechanisms
5. Electric Two and Three-Wheeler Battery Swapping Business Models and Case
Studies
5.1 Overview of Battery Swapping Business Models for Electric Two and
Three-Wheelers
5.2 Key Enterprises and Battery Swapping Technologies
5.3 Case Studies of Representative Practices
5.4 Discussion on the Profitability of Business Models
5.5 Challenges and Development Trends
6. Passenger EVs Battery Swapping Business Models and Case Studies
6.1 Introduction to Battery Swapping Business Models for Passenger EVs
6.2 Core Enterprise Practices and Key Technologies
6.3 Analysis of Representative Cases
6.4 Examination of Business Model Profitability
6.5 Challenges and Future Directions
7. Commercial Vehicle Battery Swapping Business Models and Case Studies
7.1 Overview of Battery Swapping Modes for Commercial Vehicles
7.2 Practical Applications by Key Enterprises and Core Technologies
7.3 In-depth Case Studies
7.4 Evaluation of Business Model Financial Viability
7.5 Challenges and Growth Prospects
8. Electric Ship and Aviation Battery Swapping Business Models and Case
Studies
8.1 Introduction to Battery Swapping Business Models for Electric ship and
Aviation
8.2 Central Enterprise Practices and Critical Technologies
8.3 Study of Representative Cases
8.4 Assessment of Business Model Profitability
8.5 Challenges and Emerging Trends
9. Key Players and Strategic Positions in the Battery Swapping Ecosystem
9.1 Upstream Hardware and Software Suppliers
9.2 Midstream Battery Swapping Operators and Electric Transportation
Equipment Manufacturers
9.3 Downstream Market Applications and Services
10. Challenges and Opportunities
10.1 Challenges Faced by the Industry (Infrastructure Construction, Costs,
Safety, etc.)
10.2 Battery Swapping Industry Standardization
10.3 Technological Advancements and Policy Support Bringing Development
Opportunities
10.4 Future Market Demand Forecast and Market Penetration Rate Outlook
11. Policy Recommendations and Prospects
11.1 Policy Guidance and Incentive Measures Suggestions
11.2 Ways to Promote Technological Innovation and Market Expansion
11.3 Predictions and Speculations on the Future Development Trends of the
Global Battery Swapping Industry
11.4 Predictions and Speculations on the Future Development Trends of the
Global Battery Swapping Industry
1. Introduction
1.1 Background and Significance of the Report
1.2 Overview of the Battery Swapping Industry Development
1.3 Scope of Research and Main Contents (Two and Three-Wheelers, Passenger
Vehicles, Commercial Vehicles, Electric Ships, and eVTOL)
2. Impact of Battery Swapping on Global Energy Transition
2.1 Sustainable Development Goals and Pathways to Carbon Neutrality
2.2 Role of Battery Swapping in Reducing Greenhouse Gas Emissions
2.3 The Shift from Fossil Fuels to Electric Vehicles
2.4 Role of Battery Swapping in Vehicle-to-Grid (V2G) Integration
3. Market Overview of the Battery Swapping Industry
3.1 Analysis of Global Market Size and Growth Potential
3.2 Analysis of Key Regional Policy Environments
4. Advances in Battery Swapping Technology and Standardization
4.1 Core Breakthroughs and Latest R&D Dynamics in Battery Swapping
Technology
4.2 Current Status and Development of Domestic and International Swapping
Standards
4.3 Discussion on Interoperability Between International and Domestic
Swapping Standards
4.4 Construction of Security Assurance System and Operation & Maintenance
Management Mechanisms
5. Electric Two and Three-Wheeler Battery Swapping Business Models and Case
Studies
5.1 Overview of Battery Swapping Business Models for Electric Two and
Three-Wheelers
5.2 Key Enterprises and Battery Swapping Technologies
5.3 Case Studies of Representative Practices
5.4 Discussion on the Profitability of Business Models
5.5 Challenges and Development Trends
6. Passenger EVs Battery Swapping Business Models and Case Studies
6.1 Introduction to Battery Swapping Business Models for Passenger EVs
6.2 Core Enterprise Practices and Key Technologies
6.3 Analysis of Representative Cases
6.4 Examination of Business Model Profitability
6.5 Challenges and Future Directions
7. Commercial Vehicle Battery Swapping Business Models and Case Studies
7.1 Overview of Battery Swapping Modes for Commercial Vehicles
7.2 Practical Applications by Key Enterprises and Core Technologies
7.3 In-depth Case Studies
7.4 Evaluation of Business Model Financial Viability
7.5 Challenges and Growth Prospects
8. Electric Ship and Aviation Battery Swapping Business Models and Case
Studies
8.1 Introduction to Battery Swapping Business Models for Electric ship and
Aviation
8.2 Central Enterprise Practices and Critical Technologies
8.3 Study of Representative Cases
8.4 Assessment of Business Model Profitability
8.5 Challenges and Emerging Trends
9. Key Players and Strategic Positions in the Battery Swapping Ecosystem
9.1 Upstream Hardware and Software Suppliers
9.2 Midstream Battery Swapping Operators and Electric Transportation
Equipment Manufacturers
9.3 Downstream Market Applications and Services
10. Challenges and Opportunities
10.1 Challenges Faced by the Industry (Infrastructure Construction, Costs,
Safety, etc.)
10.2 Battery Swapping Industry Standardization
10.3 Technological Advancements and Policy Support Bringing Development
Opportunities
10.4 Future Market Demand Forecast and Market Penetration Rate Outlook
11. Policy Recommendations and Prospects
11.1 Policy Guidance and Incentive Measures Suggestions
11.2 Ways to Promote Technological Innovation and Market Expansion
11.3 Predictions and Speculations on the Future Development Trends of the
Global Battery Swapping Industry
11.4 Predictions and Speculations on the Future Development Trends of the
Global Battery Swapping Industry
1.1 Background and Significance of the Report
1.2 Overview of the Battery Swapping Industry Development
1.3 Scope of Research and Main Contents (Two and Three-Wheelers, Passenger
Vehicles, Commercial Vehicles, Electric Ships, and eVTOL)
2. Impact of Battery Swapping on Global Energy Transition
2.1 Sustainable Development Goals and Pathways to Carbon Neutrality
2.2 Role of Battery Swapping in Reducing Greenhouse Gas Emissions
2.3 The Shift from Fossil Fuels to Electric Vehicles
2.4 Role of Battery Swapping in Vehicle-to-Grid (V2G) Integration
3. Market Overview of the Battery Swapping Industry
3.1 Analysis of Global Market Size and Growth Potential
3.2 Analysis of Key Regional Policy Environments
4. Advances in Battery Swapping Technology and Standardization
4.1 Core Breakthroughs and Latest R&D Dynamics in Battery Swapping
Technology
4.2 Current Status and Development of Domestic and International Swapping
Standards
4.3 Discussion on Interoperability Between International and Domestic
Swapping Standards
4.4 Construction of Security Assurance System and Operation & Maintenance
Management Mechanisms
5. Electric Two and Three-Wheeler Battery Swapping Business Models and Case
Studies
5.1 Overview of Battery Swapping Business Models for Electric Two and
Three-Wheelers
5.2 Key Enterprises and Battery Swapping Technologies
5.3 Case Studies of Representative Practices
5.4 Discussion on the Profitability of Business Models
5.5 Challenges and Development Trends
6. Passenger EVs Battery Swapping Business Models and Case Studies
6.1 Introduction to Battery Swapping Business Models for Passenger EVs
6.2 Core Enterprise Practices and Key Technologies
6.3 Analysis of Representative Cases
6.4 Examination of Business Model Profitability
6.5 Challenges and Future Directions
7. Commercial Vehicle Battery Swapping Business Models and Case Studies
7.1 Overview of Battery Swapping Modes for Commercial Vehicles
7.2 Practical Applications by Key Enterprises and Core Technologies
7.3 In-depth Case Studies
7.4 Evaluation of Business Model Financial Viability
7.5 Challenges and Growth Prospects
8. Electric Ship and Aviation Battery Swapping Business Models and Case
Studies
8.1 Introduction to Battery Swapping Business Models for Electric ship and
Aviation
8.2 Central Enterprise Practices and Critical Technologies
8.3 Study of Representative Cases
8.4 Assessment of Business Model Profitability
8.5 Challenges and Emerging Trends
9. Key Players and Strategic Positions in the Battery Swapping Ecosystem
9.1 Upstream Hardware and Software Suppliers
9.2 Midstream Battery Swapping Operators and Electric Transportation
Equipment Manufacturers
9.3 Downstream Market Applications and Services
10. Challenges and Opportunities
10.1 Challenges Faced by the Industry (Infrastructure Construction, Costs,
Safety, etc.)
10.2 Battery Swapping Industry Standardization
10.3 Technological Advancements and Policy Support Bringing Development
Opportunities
10.4 Future Market Demand Forecast and Market Penetration Rate Outlook
11. Policy Recommendations and Prospects
11.1 Policy Guidance and Incentive Measures Suggestions
11.2 Ways to Promote Technological Innovation and Market Expansion
11.3 Predictions and Speculations on the Future Development Trends of the
Global Battery Swapping Industry
11.4 Predictions and Speculations on the Future Development Trends of the
Global Battery Swapping Industry