The focus of the current project is to develop cost effective foundation and installation systems for Wave Energy Converters (WEC), by investigating and optimizing novel foundation systems recently
FLOAT2 continues the development of the promising results obtained in FLOAT (2011-1-10649) where significant cost reduction for the WaveStar converter was achieved by substituting the building
The project is a part of the international cooperation on wawe power under IEA. The project will exchange information and experiences with wawe energy and asses ocean devices.
The goal for this demonstration project to undergo an independent validation of wave energy machine "Rolling Upright" in the wave tank under controlled conditions, and in doing so have developed a
LEANCON Wave Energy
ForskVE
2012
2016
This ForskEL project will document the energy production of the wave energy converter MAWEC in real production mode. The overall project description is the same as in PSO project "Advanced Wave Energy
The purpose of the project is to design, build and test a 2 kW wave energy grid connected Lever Operated Pivoting Float LOPF buoy in the sea. The goal is to collect operational data on electric
RESEN ENERGY ApS
ForskEL
2011
2012
Wave energy, Lever Operated Pivoting Float LOPF, study of new taut moored buoy concept with direct electrical output. It will cover: Basic static theoretical optimisation of LOPF concept, design of
The purpose of the project is improve the efficiency of Power Take off systems for Wave Energy Converters, by analysing and optimizing a new PTO-system with multiple pressure lines. This includes
HI-CON A/S
ForskEL
2011
2011
As an initial step for FLOAT – a project on using UHPC for wave energy floaters - a study has been undertaken to investigate preliminary design of 2 types of floaters, essential properties of UHPFRC
The Danish wave power industry has in connection with this application created a partnership that aims to initiate, strengthen and develop cooperation, and develop a comprehensive joint strategy for
The next step in the development of the Wave Dragon technology is the deployment of a full-scale device in open sea. The development of a 1.5 MW Wave Dragon demonstrator will be based on experiences
Establishment of a data base of O&M data for Wave Dragon established in Nissum Bredning. Large uncertainty exists about fatigue impact on single components used in a wave device caused by repeated
Waveenergyfyn v/ Henning Pilgaard
ForskEL
2010
2011
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DEXA1:5 is a development project which aims to use an innovative, simple and flexible technology to validate wave energy as a cost-effective, competitive source of electrical power. Activities defined
The objective of the project is to make a 24 m long 1:10 scale version of a Leancon wave power machine that uses airflows created by a wave moving up and down a tube. The project is based on a
The project aims at optimising Wave Star wave machine production from irregular waves through sophisticated control of the back pressure in the hydraulic system in each floater. The system is being
The project gathers international research communities to develop design tools and a common design basis for wave power facilities to make them more competitive. The aim is to develop a wave-to-wire
Grid connection and electricity production optimisation from a 500 kW Wave Star wave power unit located at Horns Rev. The project is closely linked to project 10239. If the project achieves the