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A Decade After Initially Failing, Battery Swapping in Electric Vehicles Has a New Lease on Life with Promising Economics

Christopher Robinson, Research Director

Lux Research compares the costs of fast charging and battery swapping for electric vehicles as a new application brings battery swapping back to the forefront 

BOSTON, MA, August 10, 2021 – Limited charging speed and availability have been major barriers to electric vehicle adoption, and fast-charging stations are currently the most popular way to quickly add range to vehicles. However, the additional power demands can stress the electrical grid, prompting reconsideration of other solutions like battery swapping, according to a new analysis from Lux Research, a leading provider of tech-enabled research and innovation advisory services. Although battery swapping failed nearly a decade ago, it is now being considered for supporting taxi fleets in urban environments.  

Lux’s new report, “Cost Comparison of Battery Swapping and Fast Charging for Electric Vehicles,” analyzes and compares costs for deploying battery swapping infrastructure to support electric taxis in cities and offers insight on how promising battery swapping can be as a fast-charging alternative. Lux developed and used a model to perform a cost analysis of infrastructure supporting an electric fleet of taxis in two different countries – the U.K. and China. 

“Instead of quickly charging the battery, battery swapping solutions aim to physically replace a depleted battery with a charged one,” explains Christopher Robinson, Director of Research at Lux Research and lead author of the report. “Battery swapping can address two main challenges with fast charging: It slowly charges depleted batteries to minimize grid impact and battery degradation, and it allows for faster addition of range in electric vehicles.” 

Using the model developed by Lux analysts, the report drew several interesting conclusions:  

  • Battery replacement costs are crucial for keeping costs low for any infrastructure. Faster charging minimizes taxi downtime but increases the rate of battery degradation. Factoring in battery replacements due to faster charging makes 50 kW charging the cheapest form of charging.  

  • Battery swapping is most competitive for large fleet sizes. In China, battery swapping is the cheapest and fastest solution for powering electric vehicles, even in small fleets of just 100 vehicles, while in Europe, the costs are roughly equal.  

    China has cemented its position as the leader in battery swapping deployments and will remain the most promising region for the technology. Due to a combination of favorable economics, local companies that have commercialized the technology, and favorable government policies, clients should closely watch the activity in the region as a leading indicator of adoption elsewhere. 


As battery swapping networks grow, new opportunities for cost reduction emerge. While fast charging stations have the benefit of a decade of deployments and refinement, battery swapping is still in its nascent stages, with deployments accelerating rapidly over the past two years.

Lux Research - Cost Comparison of Battery Swapping and Fast Charging for Electric Vehicles

Download the executive summary of the report to learn more.