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Press Release
Posted on January 17, 2019

CPI supporting LiNaMan Project to develop next generation EV batteries

The Centre for Process Innovation (CPI) is part of a collaboration aiming to accelerate the introduction of next generation automotive batteries. For more information see the IDTechEx report on Advanced Li-ion and Beyond Li-ion Batteries 2018-2028.
 
Working alongside LiNa Energy and Lancaster University, CPI is supporting the development of a robust, low-cost and high performance energy storage battery to replace existing lithium-ion (Li-ion) batteries.
 
The project, known as LiNaMan, will demonstrate the technical and commercial viability of sodium nickel chloride (Na-Ni-CI) batteries as a new disruptive technology in the UK and European electric vehicle sector. The collaboration will also highlight the benefits of Na-Ni-Cl batteries against Li-ion alternatives, in particular their highly recyclable and relatively cheap components of steel, nickel, iron, salt and ceramic, and display their capacity to operate across a much wider operating temperature range.
 
LiNa Energy is founded upon a patented novel sodium metal chloride planar cell, which unlocks the high power and energy density potential of established sodium battery chemistry while offering vastly improved safety and reduced product complexity. The collaboration will take LiNa's concept and apply the latest material engineering to design, develop, manufacture and test the first-ever LiNa cell. Process development and process economics of LiNa's single cell will take place at CPI's state-of-the-art formulation facility, which is based in NETPark, Sedgefield, County Durham.
 
CPI will work alongside Lancaster University and LiNa Energy, providing cutting-edge equipment and its wide range of industrial experience to the project, which will include utilising its long-held expertise in fuel cell technology and its roll-to-roll printable electronics capability.
 
Dr Graeme Cruickshank, Director of Formulation at CPI, said: "By using our state-of-the-art formulation capabilities, we are able to apply our expertise from other advanced coatings and re-apply into this exciting area to create products for our greener tomorrow. It is very much an interesting and exciting time to be part of this industrial revolution."
 
Dr Gene Lewis, LiNa Energy Managing Director, said: "Project LiNaMan will advance our sodium battery technology and demonstrate the enormous potential of sodium batteries to decarbonise automotive transport and provide efficient and effective energy storage solutions. LiNa believes this is the ideal consortium to deliver the project's ambitious technical objectives and to demonstrate the tremendous advantages of sodium battery solutions over current industry-standard technologies."
 
Dr Richard Dawson, Senior Engineering Lecturer at Lancaster University, said: "We are proud to have been part of LiNa's development programme from its inception. A new sodium battery has the potential to be a truly disruptive technology that plays a significant role in decarbonising road transport in Europe and abroad, and an important driver of jobs growth and wealth creation in the North-West."
 
The project will complement existing Faraday Challenge projects by adding a strand currently missing from the portfolio and supporting the UK in a fresh sodium technology ideally suited to automotive applications.
 
The Faraday Challenge is an integral aspect of the Industrial Strategy Challenge Fund.
 
Seeking to lower carbon emissions and tackle air pollution, the fund supports research and innovation around the development of new battery technologies for future vehicles to create a stronger UK materials supply chain.
 
About CPI
The Centre for Process Innovation is a UK-based technology innovation centre and part of the High Value Manufacturing Catapult. We use applied knowledge in science and engineering combined with state of the art development facilities to enable our clients to develop, prove, prototype and scale up the next generation of products and processes.
 
Our open innovation model enables clients to develop products and prove processes with minimal risk. We provide assets and expertise so our customers can demonstrate the process before investing substantial amounts of money in capital equipment and training. New products and processes can be shown to be feasible; on paper, in the lab and in the plant before being manufactured at an industrial scale.
 
By utilising our proven assets and expertise companies can take their products and processes to market faster. There is no down time in production as all of the process development is completed offsite and our technology transfer and engineering teams can help companies to transfer the product or process into full scale production at speed.
 
 
Source: Centre for Process Innovation
Learn more at the next leading event on the topic: Business and Technology Insight Forum - Novi June 2019 External Link on 10 - 12 Jun 2019 at Novi, Michigan, USA hosted by IDTechEx.