Project description
A new and sustainable power barge solution
Power barges are like floating power plants independent of external resources or infrastructure. Quick to deploy, they can provide energy to ships in emergencies or in areas lacking land-based power plants. The EU-funded BlueBARGE project aims to design, develop and demonstrate a fully integrated and more sustainable power barge solution primarily for offshore power to moored and anchored vessels. It will include greater electrification, battery storage and potentially hydrogen fuel cells and hydrogen generators. The project will address all relevant areas, including: electrical integration; interfacing with ships, ports and local grids; operational safety; and regulatory compliance. The solution, ready to be commercialised by 2030, will have an important impact on reducing the shipping industry’s emissions.
Objective
The shipping industry is responsible for around 3% of global greenhouse gas emissions, and this is expected to increase as global trade and shipping activity continues to grow. As such, reducing emissions from shipping is an important part of global efforts to tackle climate change. In recent years, policies and legislation, mainly focusing on environmental sustainability, have pushed international shipping toward the process of its decarbonization. Regulatory bodies are pressing on the maritime world by adopting ambitious targets and by introducing a number of initiatives that will facilitate the transition to a sustainable future, including the International Maritime Organization's strategy to reduce greenhouse gas emissions from shipping, which aims to halve emissions from the sector by 2050 compared to 2008 levels.
To this end, BlueBARGE will design, develop and demonstrate an optimum power-barge solution to mainly support offshore power supply to moored and anchored vessels, limiting local polluting emissions and global GHG footprint in a life cycle perspective, following a modular, scalable, adaptable and flexible design approach which will facilitate its commercialisation by 2030. The proposed power-barge solution will consider different alternatives as containerised power supply modules in a variety of configurations, where battery modules will serve as basis due to their high energy efficiency and readiness level, and other considered modules including hydrogen fuel cells and hydrogen generators. The project will address electrical integration issues, interfacing challenges of the barge with ships, ports and local grid, operational safety and regulatory compliance aspects, delivering a high-readiness and complete “power bunkering” solution. Overall, the BlueBARGE project’s full integrated system aims at contributing to the shift of the maritime industry towards the goals of electrification and decarbonisation at an EU and international level.
Fields of science
Programme(s)
Funding Scheme
HORIZON-IA - HORIZON Innovation ActionsCoordinator
17674 KALLITHEA ATHENS
Greece