Offshore/subsea systems

Collaborative Wave Power Project Aims to Decarbonize Subsea Operations

The project aims to power subsea equipment with wave power and subsea energy storage. The two technologies have been deployed in the seas off Orkney, Scotland, and have begun a test program where they will provide low-carbon power and communication to infrastructure.

BlueX.jpg
Mocean Energy’s Blue X
Source: Verlume

A collaborative project to power subsea equipment with wave power and subsea energy storage has taken to the seas in the north of Scotland.

The £2 million demonstrator project, called Renewables for Subsea Power (RSP), has connected the Blue X wave energy converter — built by Edinburgh company Mocean Energy — with a Halo underwater battery developed by Aberdeen intelligent energy management specialists Verlume.

The two technologies have been deployed in the seas off Orkney, Scotland, and have now begun a minimum 4-month test program where they will provide low-carbon power and communication to infrastructure, including Baker Hughes’ subsea controls equipment and a resident underwater autonomous vehicle provided by Transmark Subsea.

“This is a fantastic opportunity to further test our resident autonomous underwater drone in an open sea environment” says Nigel Money, managing director Transmark. “We currently run the system in salmon farming nets, which is a more closed environment. Mocean and Verlume’s solution fits very well with our product and allows us to demonstrate broader operational capabilities of an off-grid resident AUV. Our dock and drone is designed to be easily deployed anywhere and the RSP project is a great demonstrator of this capability.”

The European Marine Energy Centre has supplied instrumentation to measure the speed and direction of currents during the deployment, while Wave Energy Scotland has provided £160,000 to support the integration of the umbilical into the wave energy converter.

The project aims to show how green technologies can be combined to provide reliable low-carbon power and communication to subsea equipment, offering a cost-effective alternative to umbilical cables, which are carbon intensive with long lead times to procure and install.

The Orkney deployment is the third phase of the RSP project, which is being supported by consortium partners that include UK-based energy companies Harbour Energy and Serica Energy. Each phase of the program has also been supported by grant funding from the Net Zero Technology Centre.

Verlume’s Halo Being Deployed in Orkney
In 2021, the consortium invested £1.6 million into Phase 2 of the program, which saw the successful integration of the core technologies in an onshore commissioning test environment at Verlume’s operations facility in Aberdeen.

They are now testing the entire system at sea at a site 5 km east of the Orkney Mainland, raising the system’s technology readiness level (TRL) to 6–7 (actual system completed and qualified via test and demonstration).

“This offshore test program is the pinnacle of the success to date in this project,” said Andy Martin, chief commercial officer at Verlume. “We are very much looking forward to the Halo being deployed. The testing will provide a great opportunity to gather high-quality performance and operational data, which will support the further electrification of the subsea sector.”

In 2021, Mocean Energy’s Blue X prototype underwent a program of rigorous at-sea testing at the European Marine Energy Centre’s Scapa Flow test site in Orkney where they generated first power and gathered significant data on machine performance and operation. The Blue X program was made possible through £3.3 million from Wave Energy Scotland, which supported the development, construction, and testing of the Blue X prototype at sea.

Mocean Energy’s Blue X
“This is a natural next step for our technology,” said Mocean Energy Managing Director Cameron McNatt. “The new test site east off Deerness offers a much more vigorous wave climate and the opportunity to demonstrate the integration of a number of technologies in real sea conditions.”

Verlume’s seabed battery energy storage system, Halo, has been specifically designed for the harsh underwater environment, reducing operational emissions and facilitating the use of renewable energy by providing a reliable, uninterrupted power supply. Halo’s fundamental basis is its intelligent energy management system, Axonn, a fully integrated system that autonomously maximizes available battery capacity in real time.

The RSP Halo system is the second variant that has been built for commercial wave power integration and the first to be built at Verlume’s 20,000-ft2 facility in Dyce, Aberdeen.