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Demonstrating efficient fully DC electric grids within waterborne transport for large ship applications (ZEWT Partnership)

European Comission

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Summary
07 December 2023
18 April 2024
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For profit
Individuals
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Public sector
R&D and Higher Education
Afghanistan
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Angola
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Research, Development and Innovation Engineering and Technology
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Overview

ExpectedOutcome :

Project outputs and results are expected to contribute to the following expected outcomes:

  • Enabling reduced emissions from waterborne transport through increased electrification including hybrid power systems.
  • Demonstration of the feasibility of a secondary smart DC grid (engineering framework, distribution/protection devices).
  • Demonstration of smart management and control of hybrid electric plants, combining different energy sources, including sustainable climate neutral fuels so as to minimize total lifecycle net GHG emissions
  • Development of a new configuration for the entire power generation architecture for large scale waterborne transport ready to be deployed.
  • Development of new power electronic systems for AC/DC converters and DC circuit breakers within the electrical network with higher efficiency.
  • Assessment of the waterborne transport emission reduction from increased electrification including hybrid power systems. Benchmarking and quantification of achieved GHG emission reduction through relevant quantifiable KPIs.
  • Assessment through verifiable KPIs of the operating costs reductions and the reduction in emissions by cutting energy consumption and extending service intervals of the generator sets.
  • Assessment through verifiable KPIs of the efficiency and power density improvements to reduce the overall volume and weight. Scope :

Primary DC systems are now applied on multiple types of ships, employing battery energy storage. The application of DC grids on-board has already started and will grow significantly because of its promising aspects such as reduction of complexity, increased modularity and improved integration. However, further progress is required to unlock the full potential of an on-board DC grid for large ship applications (over 5000 GT) addressing the entire network for both primary and secondary (auxiliary) distribution system, taking into account the various on-board applications of ship's electrification systems (e.g. high-power fuel cells, batteries, etc.) The challenge is to focus not only on secondary distribution, but also on the integration/interconnection of new sustainable primary power systems within a DC grid network serving the entire ship

In order to address the above-mentioned challenge, proposals are expected to address all the following aspects:

  • Develop high TRL innovative power electronic systems (e.g. converters, circuit breakers with logic selectivity) adapted and certified for waterborne transport applications.
  • Develop a new concept of smart, flexible, plug-and-play DC power grid which leverages the capability of new power electronic systems and allows for different DC power generation systems based on sustainable alternative energy sources.
  • Research the impact of design choices, safety measures and integration on the ship. This will require the development and on-board integration of high-power equipment and systems to complement the electrical grid (e.g. solid-state protection, solid-state transformers, Silicon-Carbide Power Devices,
  • Develop a prototype system at small scale (min. 100kW) within a real waterborne transport environment. Demonstrate the functionality and the integration of its components, prove the possibilities for further upscaling. Prove the feasibility and benefits of distributing main power based on DC instead of AC.
  • Validate the system with classification societies ensuring the highest standards for safety and reliability.
  • Develop standards for on-board DC microgrids and communication protocols which are particularly valuable for large ships where there is differentiation between the electrical supplies towards different zones (e.g. zones with ICE and zones with RES systems).
  • Integrate new power electronic systems within the ship’s network with advanced control systems to cope with variable loads and high levels of DC currents to interrupt.
  • The emissions, efficiency and operational savings are expected to be demonstrated on a relevant ship type to validate the research results. The transferability of the applications to be applied has to be proven towards a range of vessel types, including those which have larger battery systems and longer autonomy. The demonstration is expected to serve as a reference for a wide spectrum of ship's types using electrical propulsion and auxiliary power.
  • Where relevant, synergies and collaboration should be planned with the related activities and projects arising from linked Horizon Europe initiatives, in particular the Batteries and Clean Hydrogen JU partnerships.
  • Plan for the exploitation and dissemination of results should include a strong business case and sound exploitation strategy, as outlined in the introduction to this Destination. The exploitation plans should include preliminary plans for scalability, commercialisation, and deployment (feasibility study, business plan) indicating the possible funding sources to be potentially used.

All relevant stakeholders (electrical distribution and protection manufacturers, engineering companies, manufacturers of electrical equipment, users, shipyards, etc.) should participate in proposals in view of the systems development.

This topic implements the co-programmed European Partnership on ‘Zero Emission Waterborne Transport’ (ZEWT). As such, projects resulting from this topic will be expected to report on results to the European Partnership ‘Zero Emission Waterborne Transport’ (ZEWT) in support of the monitoring of its KPIs.

Specific Topic Conditions :

Activities are expected to achieve TRL 6-8 by the end of the project – see General Annex B.

Eligibility

General conditions

  1. Admissibility conditions: described in Annex A and Annex E of the Horizon Europe Work Programme General Annexes

Proposal page limits and layout: described in Part B of the Application Form available in the Submission System

  1. Eligible countries: described in Annex B of the Work Programme General Annexes

A number of non-EU/non-Associated Countries that are not automatically eligible for funding have made specific provisions for making funding available for their participants in Horizon Europe projects. See the information in the Horizon Europe Programme Guide .

  1. Other eligibility conditions: described in Annex B of the Work Programme General Annexes

If projects use satellite-based earth observation, positioning, navigation and/or related timing data and services, beneficiaries must make use of Copernicus and/or Galileo/EGNOS (other data and services may additionally be used).

  1. Financial and operational capacity and exclusion: described in Annex C of the Work Programme General Annexes

  2. Evaluation and award:

  • Award criteria, scoring and thresholds are described in Annex D of the Work Programme General Annexes

  • Submission and evaluation processes are described in Annex F of the Work Programme General Annexes and the Online Manual

  • Indicative timeline for evaluation and grant agreement: described in Annex F of the Work Programme General Annexes

  1. Legal and financial set-up of the grants: described in Annex G of the Work Programme General Annexes

The funding rate is 60% of the eligible costs, except for non-profit legal entities where the funding rate is up to 100% of the total eligible costs.

Specific conditions

  1. Specific conditions: described in the specific topic of the Work Programme

Documents

Call documents:

Standard application form — call-specific application form is available in the Submission System

Standard application form (HE RIA, IA)

Standard application form (HE RIA IA Stage 1)

Standard application form (HE CSA)

Standard application form (HE CSA Stage 1)

Standard evaluation form — will be used with the necessary adaptations

Standard evaluation form (HE RIA, IA)

Standard evaluation form (HE CSA)

Standard evaluation form (HE RIA, IA and CSA Stage 1)

MGA

HE General MGA v1.0

HE Unit MGA v1.0

Call-specific instructions

Detailed budget table (HE LS)

Information on financial support to third parties (HE)

Additional documents:

HE Main Work Programme 2023–2024 – 1. General Introduction

HE Main Work Programme 2023–2024 – 8. Climate, Energy and Mobility

HE Main Work Programme 2023–2024 – 13. General Annexes

HE Programme Guide

HE Framework Programme and Rules for Participation Regulation 2021/695

HE Specific Programme Decision 2021/764

EU Financial Regulation

Rules for Legal Entity Validation, LEAR Appointment and Financial Capacity Assessment

EU Grants AGA — Annotated Model Grant Agreement

Funding & Tenders Portal Online Manual

Funding & Tenders Portal Terms and Conditions

Funding & Tenders Portal Privacy Statement

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18 April 2024