London, UK, 19th December 2022 - Following on from the installation of the UK's first marine charging network in Plymouth to support electric vessels, Aqua superPower announces that it is leading a consortium which has secured UK government funding to explore the development of a UK demonstrator of bi-directional boat charging. The Virtual Bunkering for Electric Vessels (VBEV) project brings together two leading UK businesses, with electric boat charging operator Aqua superPower and pioneering British bi-directional charging and smart energy technology company, Indra, as well as independent, low emission transport experts Cenex and the University of Plymouth. The consortium will carry out a feasibility study to determine the financial, technical, and operational business case for the deployment of bi-directional charging infrastructure in the marine sector. The study will also evaluate the environmental benefit, ultimately preparing the ground for a UK demonstrator of bi-directional boat charging.
The VBEV project will focus on emergent bi-directional charging technology developed, demonstrated and in early release for road vehicles based on Indra's experience of pioneering V2G (vehicle-to-grid) and V2X (vehicle-to-everything) product development. This game-changing technology has already demonstrated that it can effectively enable electric vehicle drivers to reduce their energy costs and cut carbon by accessing greater levels of renewable technology at off-peak periods and discharge energy when needed. The core benefit of the bi-directional charging capability is its ability to access and store greener energy for later use. Indra’s innovative technology forms the foundation for the project’s marine application, adding the marine requirements for near-shore and inland marine vessels, using Aqua's knowledge as an electric charge point operator (CPO) in the marine sector.
The VBEV project is part of the Clean Maritime Demonstration Competition Round 2 (CMDC2) which was launched in May 2022, funded by the Department for Transport, and delivered in partnership with Innovate UK. This is a disruptive innovation opportunity led by UK businesses that could reduce UK marina CO2 emissions by 4 million tonnes per year. The University of Plymouth led the previous CMDC project – the Marine E-charging Living Lab (MeLL) – and will bring expertise and academic links into the technical aspects of this project, including battery degradation for marine operations. The University will also play a key role with stakeholder/advisory board's engagement. Cenex will develop the bi-directional charger value case and identify vessel architypes most suited to the innovative technology. The technical approach to this project has been developed by the diverse consortium partnership, combining their technical, business, operational and environmental expertise.
Virtual bunkering enables the aggregation of electric boat batteries to provide energy storage and grid support services when not being used for propulsion. With the transition to electrically powered vessels there will be a requirement for deploying charging infrastructure across marinas and harbours. Affordability of grid connections, high capital costs and battery health pose challenges to deployment. This project will develop solutions to resolve these barriers by enabling existing electric boats to support the charging infrastructure without the need for expensive grid upgrades by providing a virtual electricity bunker service, delivering managed battery conditioning support and enabling additional revenue generation for boat owners.
“We are proud to have been successful in winning our second Clean Maritime Demonstration Competition project, which is evidence of Aqua superPower’s marine charging expertise and industry authority. As project lead, we look forward to working with our highly experienced consortium partners towards decarbonising the marine sector and to accelerate the transition to clean alternative propulsion systems.” said Alex Bamberg, CEO of Aqua superPower.
Mike Schooling, Founder and CTO at Indra, says: “This is a fantastic opportunity for us to demonstrate the exciting potential that bidirectional charging could bring to the marine sector, essentially turning ships into mobile battery storage units to help save money, carbon and the planet.
Matt Knight, Hardware Trials & Data Integration Lead at Cenex, said: "Cenex has researched the benefits and applications of bi-directional charging in the automotive industry for the last six years and we're excited to see the technology applied to electric boats in coastal regions where it could have a real environmental and economic impact."
Sarah Fear, Project and Knowledge Exchange Manager at the University of Plymouth, said: “This project builds on our existing collaborative work to reduce the maritime industry’s impact on the environment. It enables us to advance our research into cutting edge innovation that can support the shift to clean maritime and reaffirms Plymouth’s place at the heart of this exciting and emerging sector.”
Aqua Superpower will be responsible for the overall management of the project. As a leader in the network deployment of e-charging networks and installations (UK and internationally) Aqua superPower will be responsible for developing a commercial business case for the deployment of bi-directional charging and designing a demonstration plan for the technology. Aqua bring extensive network, operational and management experience, from backgrounds including vehicle charging and being part of the UK's first marine charging network in Plymouth under the MeLL project.
The four partners will engage with electric boat builders, marina operators, the local and national grid as well as representatives of boat users to develop a detailed business case and plan for a world first demonstrator of Virtual Bunkering for Electric Vessels using bi-directional chargers. Delivery of these innovative actions will be a significant step toward helping the marine sector to realise greater benefit from the transition to alternative propulsion vessels, maximising C02 savings, reducing costs and improving operation.
About Aqua superPower
Aqua superPower is the first fully marinised dockside network of fast chargers for electric boats. The product range includes AC and DC charging solutions with a current maximum power output of 150 kW, allowing DC compatible powerboats to rapidly recharge and extend their autonomy. Aqua superPower has developed the first supercharger specifically engineered and rated for use in marine environments. Built to IP65 standards, Aqua superPower is a revolutionary and sustainable marine charging solution.
Aqua superPower is the first fast charge network company awarded a grant under the Clean Maritime Demonstration Competition, funded by the UK Department for Transport, and delivered with Innovate UK. The global electric boat market is expected to be worth over $20 billion by 2027. There are currently over 30 million recreational boats in the world. Assuming the boat market continues to grow in line with historical trends, it is likely there will be more than 1 million electric boats by 2030. Regulation will accelerate this trend. More and more areas will only be accessible to electric boats.
Source: IDTechEx, Electric Boats and Ships 2017-2027; Aqua estimates
Cenex, established as the UK’s Centre of Excellence for Low Carbon and Fuel Cell technologies in 2005, lowers emission in transport & associated energy infrastructure and operates as an independent, not-for-profit research technology organisation (RTO) and consultancy.
Our independent experts find the right solutions that reduce pollution, increase efficiency and lower costs, and offer informed commentary on the latest policies, technologies and innovations. www.cenex.co.uk
About the University of Plymouth
The University of Plymouth is renowned for high quality, internationally-leading education, research and innovation.
With a mission to Advance Knowledge and Transform Lives, Plymouth is a world class research university and continues to drive the global debate in disciplines including marine and maritime, sustainability, health technologies and climate action. A three-time winner of the Queen’s Anniversary Prize for Higher and Further Education, most recently in 2020 in respect of its pioneering research on microplastics pollution in the ocean, the University continues to grow in stature and reputation.
It has a strong track record for teaching and learning excellence, and has one of the highest numbers of National Teaching Fellows of any UK university. With over 18,000 students, a further 7,000 studying for a Plymouth degree at partner institutions in the UK and around the world, and over 140,000 alumni pursuing their chosen careers globally, it has a growing global presence.
The Clean Maritime Demonstration Competition Round 2
The Virtual Bunkering for Electric Vessels (VBEV) project is part of the Clean Maritime Demonstration Competition Round 2 (CMDC2) which was launched in May 2022, funded by the Department for Transport and delivered in partnership with Innovate UK. As part of the CMDC2, the Department allocated over £14m to 31 projects supported by 121 organisations from across the UK to deliver feasibility studies and collaborative R&D projects in clean maritime solutions.
The CMDC2 is part of the UK Shipping Office for Reducing Emission’s (UK SHORE) flagship multi-year CMDC programme. In March 2022, the Department announced the biggest government investment ever in our UK commercial maritime sector, allocating £206m to UK SHORE, a new division within the Department for Transport focused on decarbonising the maritime sector. UK SHORE is delivering a suite of interventions throughout 2022-2025 aimed at accelerating the design, manufacture and operation of UK-made clean maritime technologies and unlocking an industry-led transition to Net Zero.