The POSEIDON main objective is to demonstrate the applicability of 3 innovative fast-response ESS in waterborne transport addressing their on-board integration, cost-competitiveness, efficiency and safety, in relevant environments.
Then, to bottom-up from low TRL of these existing innovations ESS for waterborne transport to achieve the main objective, the following Specific Objective (SO) were defined:
SO1. To build 3 innovative marinized ESS (SMES, Supercapacitors, and Flywheel), with power capacities ranging 20-200 kW.
SO2. To demonstrate 200 hours of operation in a maritime environment of a containerized system including the 3 developed ESS systems.
SO3. To establish a refined metrics Levelized Cost of Storage (LCOS) tool for cost assessment and comparison of ESS for different waterborne segments.
SO4. To elaborate a complete lifecycle analysis of the 3 developed ESS.
SO5. To analyse potential integration with other disruptive technologies, such as hydrogen, rigid sails, and reversible hydrokinetic generators.
SO 6. To identify safety issues, potential long-term risks and to regulatory gaps as well as to propose new pre-standardization and pre-regulation for the 3 ESS.
The technological development of the project is divided in 3 blocks:
Block A: Marinization and technical development.
This block will be focused on the technological development of the project, which will be divided in 3 phases:
1) Profound analysis of the electrical grid characteristics and load profiles of different marine vessels, with special dedication to two use cases (novel electric ferry and IWT vessel).
2) ESS and ship engineering experts will build, marinize, and test the 3 ESS.
3) The 3 ESS will be put inside a container and will be tested on BALEARIA electric ferry while in operation.
Block B: Sustainability and technical feasibility.
This block will be focused on evaluating the adequacy of FRESS for waterborne applications and evaluating their environmental impact to improve energy efficiency and make waterborne transport climate neutral.
Block C: Safety and regulatory evaluation.
This block will be focused on evaluating the safety requirements and the regulatory aspects of FRESS as well as the skills requirements.
These blocks developed in POSEIDON are aligned, both in advancing technologically development of innovative EES in water transport applications, and in obtaining results that contribute to the expected outcomes of the Topic “Innovative energy storage systems on-board vessels” and, on the whole, to related long-term impacts in Destination “Clean and competitive solutions for all transport modes” towards a Zero Emission Waterborne Transport world.