Innovative anchoring for the aquaculture industry
A consortium of researchers has taken a significant step forward in the development of anchoring technology that could support the aquaculture sector’s ambitions to deliver long-term sustainable growth and reduce its environmental impact.
For the past year, tidal energy technology specialist Sustainable Marine Energy Ltd (SME), the University of Dundee, marine equipment supplier Gael Force Group, and the Scottish Aquaculture Innovation Centre (SAIC) have explored the feasibility of adapting a rock anchor approach from techniques used in marine energy sites to aquaculture.
With additional support from software provider Optum, the initial testing phase has been successfully completed and the results will allow the group to accurately predict the loads and capacity that rock anchors can bear in field trials. The findings will also enable SME to reduce the amount of material required to manufacture the anchors, leading to a more cost-effective and environmentally friendly product.
While traditional gravity and drag anchors made of concrete or steel are suitable for existing fish farming sites, the new technology could support the deployment of aquaculture sites in more remote, higher energy locations. The anchor forms a mechanical ground lock with the rock seabed without the need for resin or grout, and the reduction in weight also allows operators to use modestly sized, readily available vessels for deployment.
The group is now looking for an aquaculture partner to trial the new anchors at a fish farm, progressing towards a full-scale deployment.
Adam Caton, geotechnical engineer at Sustainable Marine Energy, said:
‘To date, the project has been a tremendous success, allowing us to create a more cost-effective anchoring technology that will benefit the aquaculture sector. Each partner has played a pivotal role in getting us to this point – from Dundee’s analysis of anchor behaviour, to Gael Force’s input on typical fish farm mooring loads – allowing us to create a more efficient and innovative design.
‘These anchors have the potential to allow expansion of aquaculture to previously inaccessible sites with scope for large farms in energetic areas. This will bring benefits in terms of fish fitness and waste dispersal. This is a new sector for us and a market in which we are extremely interested. The next stage is to trial the technology at a fish farm alongside continued lab testing, to take another step forward in bringing the product to market.’
When fully developed, adoption of the new anchoring technology could allow fish and shellfish farms to look at areas which are currently unusable. Locating operations in deeper, higher energy waters could help to reduce a range of health and wellbeing risks for aquaculture species, while also increasing the industry’s capacity, by allowing the development of larger farms with a lower environmental footprint.