Project

Accelerating the digital innovation in the PtX energy sector and its related sectors requires considering all stakeholders in the development of digital ecosystem solutions for efficient sector coupling in PtX value chains.
The project will investigate the potential and possibilities of purchasing electricity from large-scale offshore wind and energy islands for use in a regional ecosystem with sector coupling solutions, PtX production and infrastructure. The project will build knowledge, uncover commercial opportunities and screen for business potential and skills needed to build and run the ecosystem.

The ocean covers over 70% surface of the earth, however, we have to say that so far human being knows still very little under these waters, although we believe there should be plenty of resources we could adopt if we could find out some safe and cost-effective technology to do so. Subsea robotics has been helping human beings to extend their capabilities in recent decades, thanks to the rapid technology development. Subsea robots can commit difficult and/or dangerous tasks beyond human's natural capability, such as deepwater sea floor scanning, oil & gas exploitation and exploration, subsea pipeline installation and inspection, as well as handling some catastrophic disasters.

The proposed equipment can certainly provide us with a solid and professional subsea robotic platform, not only to verify our so-far obtained results, but also to inspire new thinking and ideas, as well as to provide relevant industries a lab-sized testing robot protocol.

The purpose of this proof of concept project is to further investigate the WaveSpring technology and how it can benefit wave energy plants. The results from the project will increase the efficiency of wave energy plants and reduce the price of the energy produced from the plants.

The long-term goals of this task 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 modeling tools
3. To identify uncertainty related to simulation methodologies in order to:
a. Reduce risk in technology development
b. Improve WEC energy capture estimates
c. Improve loading estimates
d. Reduce uncertainty in LCOE models
4. To define future research and develop methods of verifying and validating the different types of numerical models required depending on the conditions

This Bubble Project aims to assess the feasibility of revamping offshore oil and gas infrastructures transforming them into units producing methane from wind power.

The decision to build the world's first two offshore energy islands (or hubs) is a cornerstone in reaching Denmark's climate targets and a beginning of a new era for green Danish technology export. With an estimated value of DKK 210bn, the offshore energy islands will create significant business opportunities for Danish stakeholders. In the Offshore Energy Hubs (OEH) project we develop technical solutions for:
a) tools and control solutions for stable and resilient hub operation,
b) cost-efficient design of wind power plants (WPPs) and
c) hub-optimized offshore Power-to-X (PtX).

The value creation of the OEH solutions is both direct and indirect. The developed solutions will reduce capital costs by DKK 20bn just for the first 10 GW islands, and, most importantly, will enable a future-proof expansion of the energy islands. This opens up immense global market opportunities for the technologies developed by the top Danish industry, who are partners to this project. Therefore, the technical solutions developed in the OEH project contribute to ensuring the profitability of the OEH, while also ensuring the stability of the hub and the connected power systems.

The OEH's execution ensures timely contributions to the partners' strategy and roadmaps. OEH will deliver a framework for Bornholm as a large-scale development and demonstration center for offshore energy island technology, supporting Danish industry in maintaining its first-mover position.