EMEC deep in data mining to assess performance of tidal devices

​Bow of SME’s PLAT-I and ADCP retrieval (Photo: SME)

The European Marine Energy Centre (EMEC) is making progress in the collection of resource and power generation data to evaluate the performance of tidal energy devices as part of the MET-CERTIFIED project.

Within the project so far, EMEC has coordinated the data collection campaigns for performance tests on Tocardo’s temporary foundation system (TFS) – conducted at EMEC’s grid-connected tidal test site throughout 2017.

Having monitored the resource of tidal velocities at these sites, EMEC has been able to generate a power curve which shows for a given tidal speed how much electric power the tidal energy converter will generate, according to MET Certified.

EMEC is now collecting data on Sustainable Marine Energy (SME)’s PLAT-I tidal energy system, which is currently deployed at Connel, near Oban in Scotland, according to MET-CERTIFIED.

The PLAT-I and Tocardo’s TFS have been deployed at different locations with different rotor configurations and mooring arrangements, so it is important that the technical specifications can cope with these differences and still be applied effectively and equitably.

The purpose of MET-CERTIFIED is to ensure that is the case as the EU-funded project aims to increase the adoption of insurable and therefore bankable marine energy projects through the development of internationally recognized standards and certification schemes in the sector.

Tocardo’s Temporary Foundation System (Photo: Tocardo)

 
EMEC will collate the data which has now been collected and develop a report providing essential feedback to Tocardo on applying (IEC)’s technical specifications for the resource characteristics, device performance and acoustic monitoring which was undertaken before and during the deployment, MET-CERTIFIED informed.

The collection of resource data remains underway for SME’s device which will enable EMEC to independently review their device performance.

EMEC has deployed an acoustic doppler current profiler (ADCP) at Connel to measure the tidal speed, in which the results can then be compared to other speed measurement instruments SME and their research partners have deployed around their device.

This will enable the evaluation of advantages and disadvantages of different measurement techniques which will inform best practice, MET-CERTIFIED said.

As well as providing independent feedback to the developers, EMEC will be providing feedback to the IEC on the learning established from applying IEC’s technical specification to tidal energy convertors.

This will lead to the refinement of IEC’s technical specifications which aims to ensure that the specifications are practical, applicable to a range of tidal energy converter devices and ultimately reflect best practice. This will enable a certification scheme to be developed which will reduce the risks and consequentially insurance and finance costs in the sector, according to MET-CERTIFIED.

EMEC is leading on the ‘Type Certification of Existing Tidal Power Technologies’ work package for the MET-CERTIFIED project.

The aim of this work package is to assist in the development of a suite of internationally recognized standards by testing developing technical specifications in a systematic way with existing pilot projects in the marine renewable industry.

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