WETFEET | Wave Energy Transition to Future by Evolution of Engineering and Technology

Summary
The recent experience with ocean wave energy have revealed issues with reliability of technical components, survivability, high development costs and risks, long time to market, as well as industrial scalability of proposed and tested technologies. However the potential of wave energy is vast, and also positive conclusions have been drawn, in particular that wave energy is generally technically feasible.
Having substantial insight into successes and drawbacks in past developments and existing concepts, the promoters have identified ‘breakthrough features’ that address the above mentioned obstacles, i.e. components, systems and processes, as well as the respective IP. These breakthroughs are applied to two wave concepts, the OWC and the Symphony, under development by members of the consortium. The following main avenues have been identified:

1. Survivability breakthrough via device submergence under storm conditions;
2. O&M (operation and maintenance) breakthrough via continuous submergence and adaption of components and strategies;
3. PTO breakthrough via dielectric membrane alternatives to the “classical” electro-mechanical power take-off equipment;
4. Array breakthrough via sharing of mooring and electrical connections between nearby devices, as well as integral approach to device interaction and compact aggregates;

WETFEET addressees Low-carbon Energies specific challenges by targeting a set of breakthroughs for wave energy technology, an infant clean energy technology with vast potential.

The breakthrough features of WETFEET are developed and tested on the platform of two specific converter types (OWC and Symphony) with near-term commercial interest, and a large part of the results can make a general contribution to the sector, being implemented in other technologies.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/641334
Start date: 01-05-2015
End date: 30-04-2018
Total budget - Public funding: 3 456 883,75 Euro - 3 456 883,00 Euro
Cordis data

Original description

The recent experience with ocean wave energy have revealed issues with reliability of technical components, survivability, high development costs and risks, long time to market, as well as industrial scalability of proposed and tested technologies. However the potential of wave energy is vast, and also positive conclusions have been drawn, in particular that wave energy is generally technically feasible.
Having substantial insight into successes and drawbacks in past developments and existing concepts, the promoters have identified ‘breakthrough features’ that address the above mentioned obstacles, i.e. components, systems and processes, as well as the respective IP. These breakthroughs are applied to two wave concepts, the OWC and the Symphony, under development by members of the consortium. The following main avenues have been identified:

1. Survivability breakthrough via device submergence under storm conditions;
2. O&M (operation and maintenance) breakthrough via continuous submergence and adaption of components and strategies;
3. PTO breakthrough via dielectric membrane alternatives to the “classical” electro-mechanical power take-off equipment;
4. Array breakthrough via sharing of mooring and electrical connections between nearby devices, as well as integral approach to device interaction and compact aggregates;

WETFEET addressees Low-carbon Energies specific challenges by targeting a set of breakthroughs for wave energy technology, an infant clean energy technology with vast potential.

The breakthrough features of WETFEET are developed and tested on the platform of two specific converter types (OWC and Symphony) with near-term commercial interest, and a large part of the results can make a general contribution to the sector, being implemented in other technologies.

Status

CLOSED

Call topic

LCE-01-2014

Update Date

26-10-2022
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Horizon 2020
H2020-EU.3. SOCIETAL CHALLENGES
H2020-EU.3.3. SOCIETAL CHALLENGES - Secure, clean and efficient energy
H2020-EU.3.3.5. New knowledge and technologies
H2020-LCE-2014-1
LCE-01-2014 New knowledge and technologies