Williams Advanced Engineering assists in development of the world’s first sodium-ion powered vehicle

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Williams Advanced Engineering carried out the first public demonstration of a sodium-ion powered vehicle.

Developed by British battery start-up firm Faradion in collaboration with Williams Advanced Engineering and the University of Oxford, this technology was demonstrated on May 14 in an e-bike application as a proof-of-concept to showcase the capabilities of this new type of battery chemistry.

The project to demonstrate sodium-ion battery technology has been part-funded by the UK’s innovation agency Innovate UK in its latest competition for ‘disruptive technologies in low carbon vehicles’. Although lithium-ion batteries are currently the predominant technology in electric and hybrid vehicles as well as energy storage applications, sodium-ion has the potential to offer cost, safety and sourcing benefits. The base materials required for sodium-ion batteries are more easily sourced than those needed for lithium-ion batteries, which are only found in a limited number of markets around the world. Sodium salts used in sodium-ion batteries can be made from common salt, which is more abundant than lithium salt and also available within the UK, providing possibilities for a British battery supply chain.

As a proof-of-concept, the cells for the e-bike have been manufactured to be larger than necessary, which helps to avoid unnecessary costs and lengthy manufacturing processes at this early stage. When optimized, the cells will be comparable in size to lithium-ion battery packs already on the market. As such, there is potential to exploit the technology for use in a wide range of electric and hybrid vehicles, as well as energy storage applications.

The e-bike battery pack is made up of four 12-cell modules that were designed and manufactured by Williams Advanced Engineering and controlled by a Williams designed battery management system. Williams is a proven leader in the design and manufacture of battery energy storage technology, having developed batteries for the Formula E electric racing series, Jaguar C-X75 hybrid supercar, and the Kinetic Energy Recovery Systems (KERS) that helped power the company’s Formula One racing cars from 2011-2013. Oxford University’s expertise has been used to maximize battery life and it is expected that as well as comparable performance, sodium-ion cells can offer a comparable lifetime to lithium-ion products.

“Williams Advanced Engineering has a history of innovation in lithium-ion battery technology for a range of different applications,” says the company’s technical director Paul McNamara.

“While lithium-ion is still the dominant choice of chemistry, sodium-ion is a fascinating alternative that could have real benefits in terms of cost and availability. We have worked closely with Faradion and Oxford University to explore its potential and today was about showcasing the concept in a real world application for the first time.”

May 21, 2015

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Dean has been with UKi Media & Events for over a decade, having previously cut his journalistic teeth writing and editing for various automotive and engineering titles. He combines extensive knowledge of all things automotive with a passion for driving, and experience testing countless new vehicles, engines and technologies around the world. As well as his role as editor-in-chief across a range of UKi's media titles, he is also co-chair of the judging panel of the International Engine of the Year Awards.

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