RotaBolts chosen for Wave Power Project
Aquamarine Power has ordered RotaBolt bolting tension measurement technology for its Oyster 800 wave power project which captures the energy in nearshore waves and converts it into clean sustainable energy. The fasteners will be fitted to an underwater flange that is part of the system’s main 'water hydraulics.'
“There were two main reasons why we have ordered RotaBolt technology,” commented Richard Montague, Lead Mechanical Engineer, “we needed to be confident that we were achieving the correct bolt tension on this pipe flange to assure its operational integrity. We also wanted to make maintenance checks as simple and quick as possible. Through experience of using RotaBolt technology before joining Aquamarine Power, I hope our divers will be able to carry out checks for correct tension without re-torquing. This will be a significant maintenance benefit.”
The technology incorporated into each RotaBolt fastener ensures that the correct tension is achieved at installation and then throughout the life of the bolted joint. The design features a RotaCap on the top of the bolt which allows for instant finger-tip checking of correct tension, making it ideal for applications where operators are looking for operational integrity and also maintenance savings.
The Oyster 800 project is situated off the Orkney Islands and has been operational since 2012. Essentially it is a wave powered pump consisting of a buoyant, hinged flap which is attached to the seabed at depths of between 10 and 15 metres, around half a kilometre from the shore.
The hinged flap, which is almost entirely underwater, pitches backwards and forwards in the nearshore waves. The movement of the flap drives two hydraulic pistons which push high pressure water onshore via the subsea pipeline to drive a conventional hydro-electric turbine.
The project is being continually refined and improved by Aquamarine Power and it is expected that next winter’s weather will provide a fuller testing of RotaBolt’s ability to assure integrity, before a final assessment is made next spring. The hydraulics system has a number of flange connections which could potentially also benefit from RotaBolt technology.
The use of RotaBolt bolting tension measurement technology is growing across renewable energy. The offshore wind sector is increasingly turning to the benefits of the technology on both turbines and foundational structures, and in wave and tidal power RotaBolts are currently being piloted and assessed on a number of projects.