Hyper powered vessel battery charging system

Climate, Energy & MobilityHORIZON-IAID: 101056853
EC Contribution
€66,575
Consortium Size
19 orgs
Start Year
2022
Summary

As a significant source of greenhouse gasses (GHGs), it is essential that the maritime transport sector focuses on ways to become climate neutral. Partial electrification of power systems has already been adopted as a GHG reduction measure. However, further advances are necessary on such aspects as the provision of high charging powers to minimise costs and improve standardisation. In this context, HYPOBATT will be focused on the development of an interoperable charging solution with a cost-competitive performance.HYPOBATT will deliver a modular, fast, and easy multi-MW recharging system demonstrated in two European ports with fast turnaround times. The project will assess the end-to-end services between both ports, and compatibility with other ports. A modular approach on electrical and mechanical integration will minimize the required connection time, the charging time, land from port side and the number of components and costs. The charging system will be designed to achieve interoperability and compatibility with different electric ships, grid constraints, components, modularity, logistic and handling, monitoring and safety systems, power flow, maintenance, digitalization/automation, cybersecurity, and human element aspects. The standardization of the charging modules, the interfaces, and the communication protocol, will scale up the charger based on and on/offshore sides; flexibility of power levels will be addressed and the impacts on the electrical grid infrastructure and on the battery degradation during fast charging will be minimized. HYPOBATT unites key actors from the European maritime sector to develop and demonstrate the charging system. A key element is to develop business mechanisms to exploit the flexibility of the charging system amongst shipbuilders, integrators, ports and stakeholders. This will enable the wide adoption of the solution, thus increasing Europe’s lead in fast charging systems.

Consortium (19)

Project Results (16)

Source: CORDIS, the EU research results database.

Publications (6)
Cloud-Based Digital Twin for Optimized Multi-Megawatt Charging Control Strategies in Maritime Applications
2024 IEEE International Conference on Electrical Systems for Aircraft, Railway, Ship Propulsion and Road Vehicles & International Transportation Electrification Conference (ESARS-ITEC)· 2025DOI
Gorka Elezgarai, Vincenzo Mascaro, Mikel Lopez, Jeroen Zwysen, Alvaro Reina, Endika Bilbao, Irma Villar, Imane Worigi, George Kostalas
Digital Twin-Based Modeling of an Electric Vessel Fast Charger for Cloud Implementation
2024 International Conference on Electrical, Computer and Energy Technologies (ICECET· 2024DOI
Gorka Elezgarai, Iñigo Zubitur, Itsasne Landaburu, Mikel Lopez, Endika Bilbao, Irma Villar
Distributed Insulation Monitoring Strategy (DIMS) for High Stray Capacitance Systems
Energies and Quality Journal· 2024DOI
H. Balanzategui, null null, R. Moreno, A. Sánchez, V.M. López, E. Bilbao, A. Rujas, null null, null null, null null, null null, null null
Towards an Optimal health-aware charging strategy for a Lithium-Ion battery
· 2024
Taranjitsingh Singh, Mohsen Akbarzadeh, Henk Jan Bergveld
Whitepaper High Power Marine Charging
· 2022
Peter Rampen, Edward Sciberras, Menno van Leeuwen (DAMEN Shipyards), Thomas Gerrits (HELIOX BV), Alvaro Reina (BRING VZW), Philipp Inegbedion (OtaskiES), Guido Gommer, Natale Pietro Grippi (WABTEC Coorporation), Luigi Benedetti (RINA), Hans-Georg Schweige
Whitepaper Maritime Automated Charging System
· 2022
N.P. Grippi, A. Reina, P. Rampen, T. Gerrits, C.v. Raan, E. Morea, C. Langella, A. Maccari, M. Pommer, G. Gommer, M. Tushar, P. Cardoso, E. Bilbao, and P. Lang
Deliverables (9)
Other Results (1)
Periodic Reporting for period 2 - HYPOBATT (Hyper powered vessel battery charging system)