RCRM Reliable Connectors for Renewable Moorings
Lead Participant:
TENSION TECHNOLOGY INTERNATIONAL LIMITED
Abstract
Wave, tidal and offshore floating wind arrays could supply a significant amount (up to 20%) of the UK's energy
needs. However, current weaknesses in mooring lines present a barrier for developers who are attempting to
harness and exploit this energy source. This project is focused on investigating the feasibility of producing
state-of-the-art multi-material hybrid end and in-line rope connectors. The components will incorporate a
higher strength, lightweight corrosion resistant metal core with a high wear resistant nylon surface. To date
multi-material solutions have never been used in these components and this will enhance the in-service life of
the ropes. This will ultimately increase durability, reliability and productivity of the energy device as well as
reduce maintenance and costs whilst improving safety.
needs. However, current weaknesses in mooring lines present a barrier for developers who are attempting to
harness and exploit this energy source. This project is focused on investigating the feasibility of producing
state-of-the-art multi-material hybrid end and in-line rope connectors. The components will incorporate a
higher strength, lightweight corrosion resistant metal core with a high wear resistant nylon surface. To date
multi-material solutions have never been used in these components and this will enhance the in-service life of
the ropes. This will ultimately increase durability, reliability and productivity of the energy device as well as
reduce maintenance and costs whilst improving safety.
Lead Participant | Project Cost | Grant Offer |
---|---|---|
TENSION TECHNOLOGY INTERNATIONAL LIMITED | £138,332 | £ 96,832 |
  | ||
Participant |
||
BRUNEL UNIVERSITY LONDON | ||
BRUNEL UNIVERSITY LONDON | £100,336 | |
THE EUROPEAN MARINE ENERGY CENTRE LIMITED | £17,529 | £ 12,270 |
NYLACAST LIMITED | £50,069 | £ 25,035 |
People |
ORCID iD |
NIGEL BRIGGS (Project Manager) |