A partnership of Battery Electric Vehicle (BEV) manufacturers have joined forces through the European Union’s TEN-T programme to create a multi-standard and inter-operable charging network through the United Kingdom and Ireland.
As well as helping to finance the €7+ million scheme, the consortium is providing other members of the project with the benefit of its extensive experience in the BEV field.
This is the first time leading BEV companies Nissan, BMW, Renault and Volkswagen have united to accelerate the growth of EV charging infrastructure, seen as a key enabler towards making zero-emission mobility a market reality. The project, managed by Zero Carbon Futures in North East England also draws on the network expertise of ESB, one of Ireland’s foremost energy company and leader of a previous TEN-T project completed this summer, and Newcastle University.
The project, managed by Zero Carbon Futures in Sunderland also draws on the network expertise of ESB, one of Ireland’s foremost energy company and leader of a previous TEN-T project completed this summer, and Newcastle University.
When complete, the UK Rapid Charge Network (RCN) will comprise more than 70 multi standard rapid chargers covering some 1,100km of major trunk routes and providing EV-friendly links to five seaports and five international airports. Running on two priority road axes on the mainland of the UK, the RCN will link major ports and cities including Stranraer, Liverpool, Holyhead, Birmingham, Felixstowe, Leeds and Kingston upon Hull. There will also be networks embracing Dublin, Ireland and Belfast, Northern Ireland.
Significantly, the rapid chargers are the latest state-of-the-art multi-standard units and are compatible with cars using 44kW CCS, 44kW CHAdeMO or 43kW AC systems. This will ensure that EV drivers travelling in the UK and Ireland can undertake long journeys secure in the knowledge that they will never be far from a rapid charger.
Ten rapid chargers have been already installed with a further 28 sites soon to be commissioned. The start of the project’s deployment was officially marked on 9 September 2014 at a ceremony at the Corley Services on the M6 motorway in Coventry, UK.
Baroness Kramer, UK Minister of State for Transport said: “We are serious about plug-in vehicles and have a comprehensive package of measures to help consumers and industry make the switch to electric. The UK now has the best rapid charging network in Europe. Projects like this highlight how industry is showing its confidence in the rapidly growing market.”
The UK RCN is part of the European Union-financed Trans European Transport Network (TEN-T) and represents a substantial partnership investment of €7,358,000, half of which is being funded by the EU.
Nissan is leading the BEV manufacturers’ contribution to the overall costs, a significant portion of which will be used to fund a research program, led by Newcastle University. This will aim to confirm the benefits of such an advanced interoperable EV rapid charging network. Strategic information gathered from users, including customer charging behaviour and changes in mobility patterns, will help plan the roll-out future of rapid charging infrastructure in member states across Europe.
“The UK’s Rapid Charge Network will provide a vital sense of security for all EV drivers, as well as helping to promote the advantages of zero emission mobility to others,” said Olivier Paturet, General Manager, Nissan Europe Zero Emission Strategy and RCN Project Leader. “This project will have a major impact on the decarbonisation of European transport, and Nissan is thrilled to contribute to its viability.”
The project is co-funded by the European Union’s TEN-T Programme, which aims to improve transport infrastructure across Europe and will run on the European Union’s two priority axes. It was among the 172 projects selected from the 2012 Call for funding which will help realise TEN-T network development and aid European Transport in moving to a more sustainable future.Back
The Rapid Charge Network is supported by major industry partners, including: