EMEC, Crown Release Cable Study Findings

Grid Connection

The European Marine Energy Centre (EMEC) and The Crown Estate have published a report on the performance of subsea cabling in high energy environments to support the development of commercial wave and tidal energy sites.

The key aim of the Sub-sea Cable Lifecycle Study is to improve the industry’s understanding of how best to specify and manage subsea cables for wave and tidal energy projects, by investigating how the cables installed at the EMEC test sites in Orkney have been performing since installation.

With its first cables installed over 10 years ago, EMEC has collected considerable amounts of data with numerous routine remotely operated vehicle (ROV) and inshore dive surveys undertaken to examine structural integrity, alongside comprehensive electrical cable testing.

The study found that the sub-sea cables installed at the EMEC test sites appear to be in extremely good condition considering the environment in which they are deployed.

Matthew Finn, Senior Business Development Manager explains:

“EMEC has built up a colossal amount of data since we set up the test centre 12 years ago. As well as supporting our own operations, and those of our developer clients, we’re delighted to see our data put to use across other projects that will support the development of the nascent marine renewables industry.

“The strong tidal conditions at our tidal test site – up to 8 knots at peak tide – provide a unique opportunity for people looking to test components, equipment, devices and supporting infrastructure in real sea conditions. We want our infrastructure to be put to good use, and would like to see the cables utilised in supporting other technology testing and demonstration projects in the future as well.”

The report concludes that in sites with high tidal flow the greatest risk to sub-sea cables is the effect of cable strumming – vibration caused by the flow of water past the cable.

Key recommendations to developers of wave and tidal energy projects include: carrying out calculations to assess the risk of strumming at an early stage; completing detailed site surveys and optimising the cable route to avoid key risks; and protecting the cables with armouring in high energy environments.

Image: EMEC