ORE Catapult, CENSIS in sensor collaboration

OE Staff
Tuesday, September 1, 2015

A new type of sensor could soon be installed on the blades of subsea tidal turbines to monitor the interaction between marine life and renewable energy installations, as a result of a new collaborative project involving the Offshore Renewable Energy (ORE) Catapult and CENSIS.

The initiative is the first time the government-backed Catapult and Innovation Centres have worked together.

The organizations’ research will aim to improve the monitoring of activity around subsea tidal installations and provide a warning when there is a risk of a collision with a tidal device. The project partners will assess whether sensor technology from other industries can be employed to detect, monitor and forewarn of potential collisions with tidal energy devices, or if a new sensor technology is needed. 

Current monitoring processes can be very expensive, involving teams of watchers on the seashore and a mixture of subsea listening devices. Subsequently, the cost of subsea environmental monitoring can be substantial and inconclusive when it is difficult to confirm surface sightings with events beneath the waves. 

Regulations stipulate that developers must analyze the environment around a proposed site for two years prior to installation, as well as during the construction phase and throughout the plant’s operation. This is likely to be at least 20-25 years. 

“Tidal energy is an emerging market with great export potential, which the UK has the potential to lead,” said Vicky Coy, project manager at ORE Catapult. “Scotland, in particular, has a number of rich tidal energy sites with the Pentland Firth and Orkney Waters among the greatest in the UK.

“Our primary concern is safety: the safety of both the natural environment in which we want to operate and of the equipment we want to install and use to generate energy. To achieve that, we must design reliable monitoring systems that confirm these systems can be comfortably integrated into the subsea environment. But, we also need to make the technology cost effective. Another aspect of this project is to simplify and reduce the costs from what is, in effect, the subsea equivalent of the planning process. 

“Tidal energy developers tend to be small and medium-sized companies with limited resources, so any costs which can be removed at the same time as improving safety will be welcomed by the industry. We’ve had a lot of positive engagement from both the business and academic communities, and we’re looking to harness this support further when we move to the next stages of this initiative.”

“We’re working with a number of organizations to articulate the needs for a sensor system with the appropriate sensitivities – one that can provide evidence of how marine mammals behave near tidal turbines and also determine what exactly has impacted on a particular asset, should a collision occur,” said Gavin Burrows, project manager at CENSIS. “It’s most likely that sensors, whether these are brought in from another industry or developed specifically for this purpose, will be built into the blades of subsea turbines. This could have applications in a range of other offshore devices, not just in the tidal energy market.

“There is significant potential for us to export the skills and expertise we’ll be developing as part of this project – particularly as we move into the demonstration and commercialization phases. Likewise, researchers will have access to new and hitherto untapped data, giving them the opportunity to accelerate the industry. The potential is there for our academic and business communities to take further leaps forward in the tidal energy market – our aim is to make this happen and create economic value out of the research for Scotland.”

Categories: Technology Engineering Subsea Activity Europe Renewables Design Regulations

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