The consortium will improve the energy collectors and energy efficiency on the most weight and cost-efficient wave energy system currently in development. The EUDP project targets the primary CAPEX
The purpose of this project is to make Crestwing completely ready for its first commercially viable device. With the final demonstration of Crestwing’s 30-meter, 65 tons prototype “Tordenskiold”, the
The purpose of this project is to implement the next phase in the Exowave strategy, which is to be able to establish a 250 MW wave power plant together with an offshore wind farm before 2030 in Danish
The objective of this project is to develop, design, build, test, optimize and commission FPPs first full-scale wave PTO system. The resulting PTO design will be used to build four identical PTO units
The first purpose is to optimize and demonstrate Exowave wave energy concept in a coastal offshore environment, where the produced seawater under high pressure is led ashore and converted to fresh
The Ocean Energy Systems (OES) Task 10, Part II continues the work on verification and validation of numerical models of Wave Energy Converters (WECs) previously supported by EUDPJ.nr. 64017-05197.
The purpose of this project is to bring the patented Smart Power Buoy in small scale from TRL5 to 7 and make it market ready for a demanding and profitable niche market in the offshore oil and gas
The project will examine how concrete technology can be applied to large offshore wave energy devices in this case Wave Dragon and KNSwing. The study will examine solutions such as ordinary reinforced
The long-term goals of OES Task 10 are:
1. To assess the accuracy and establish confidence in the use of numerical WEC models
2. To determine a range of validity of existing computational modelling
The long-term goals of OES are:
1. To assess and establish confidence in the use of Wave Energy Converters
2. To engage and integrate Danish industry in international initiatives
3. To identify
This project aims at testing the Weptos WEC for the first time in an uncontrolled - real sea environment. This will give the opportunity to check the extensive findings from the previous
The objective of the project is to achieve final proof of concept of the Wavepiston technology. A scaled model has earlier been validated at University of Aalborg and a pilot project has been
The purpose of the project is final engineering, drawing, design, production and installation of a Crestwing prototype close to full scale. It will show its potential and demonstrate its high
The objective og this project is to develop a new material and method that benefits installation, survivability and lifetime of sub-structures of wave energy converters. The results of the project
The projects objectives are 1) to define the long-term wave climate around Hanstholm area using measurements from three buoys off Hanstholm and by validating modelled against buoy-measured data, and 2
This open-access book aims at giving a clear overview of all the main technical and commercial aspects that are involved with the development of wave energy converters. The book will be written by
The project´s objective is to build a theoretical knowledge about gyro electric energy conversion systems, particularly for use in connection with wave energy. The primary goal will be to develop a