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3.8 million pounds in contracts awarded to mitigate the radar risk of windfarms

  • Sep 28, 2021 3:16 pm GMT
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PR Newswire Policy

<div class="xn-content"> <p><location value="LU/gb.eng.london" idsrc="xmltag.org">LONDON</location>, <chron>28 September 2021</chron> /PRNewswire Policy/ -- </p><p>Seven projects have been awarded funding to develop technologies that support the coexistence of offshore windfarms and <location value="LC/gb" idsrc="xmltag.org">UK</location> air defence systems </p><p> </p><p>Funded through the BEIS Net Zero Innovation Portfolio and delivered by MOD, the Defence and Security Accelerator (DASA) with the support of the <org value="ACORN:0405363067" idsrc="xmltag.org">Defence Science and Technology Laboratory</org> (Dstl) have awarded contracts worth 3.8 million pounds for Phase 2 of Windfarm Mitigation for <location value="LC/gb" idsrc="xmltag.org">UK</location> Air Defence, a competition which aims to develop technologies that reduce the impact of offshore windfarms on Air Defence (AD) surveillance. </p><p> </p><p>Offshore wind will play a key role in delivering the net zero ambition by 2050, with a government commitment to scale it up to 40GW by the end of the decade. To achieve net zero targets, the <location value="LC/gb" idsrc="xmltag.org">UK</location> will need additional offshore windfarms around the <location value="LC/gb" idsrc="xmltag.org">UK</location>. </p><p> </p><p>The Windfarm Mitigation for <location value="LC/gb" idsrc="xmltag.org">UK</location> Air Defence competition was run behalf of the <org value="ACORN:1248869780" idsrc="xmltag.org">Department for Business, Energy and Industrial Strategy</org> (BEIS) and undertaken in partnership with the <org value="ACORN:3444645436" idsrc="xmltag.org">Royal Air Force</org> (RAF),to seek ideas from industry and academia to reduce the adverse impact that windfarms can have on AD and Air Traffic Control (ATC) surveillance systems. </p><p> </p><p>Technologies that were submitted during the competition include: </p><p> </p><p>- alternative technologies that could reduce radar clutter caused by offshore windfarms </p><p>- improvements to the probability of intruder detection </p><p>- the capability to fill or remove gaps in radar coverage </p><p>- alternatives to radar </p><p>- solutions to the cumulative effect of windfarm development </p><p>- metasurfaces applied to, or alterations to the design of, the wind turbines </p><p>- alterations to the initial radar signal or radar station or processing of the return </p><p> </p><p>Wing Commander <person>Kevin Walton</person>, Co-Chair of the <org>Ministry of Defence/Offshore Wind Industry Council Air Defence Mitigation Task Force</org> said: </p><p>“Offshore wind will play a major role in achieving our Net Zero Targets. The technology being developed in this competition will help the <location value="LC/gb" idsrc="xmltag.org">UK</location> achieve its renewable energy targets without compromising the surveillance of <location value="LC/gb" idsrc="xmltag.org">UK</location> airspace. </p><p> </p><p>“In addition, the technology being developed will help boost <location value="LC/gb" idsrc="xmltag.org">UK</location> prosperity, entrepreneurs and innovators by investing in innovative technologies. </p><p> </p><p>“Phase 2 of this competition develops on the Phase 1 activities and moves further to identify operational systems that will help enable the coexistence of offshore windfarms and the <location value="LC/gb" idsrc="xmltag.org">UK</location>'s Air Defence and ATC surveillance systems.” </p><p> </p><p>Aviation and windfarms working together </p><p>Seven projects led from six organisations have been awarded Phase 2 funding to fast-track their innovative solutions. The organisations are: </p><p> </p><p><org>Advanced Material Development Ltd</org> </p><p>Phase 2 Funding: 392,605 pounds </p><p> </p><p>Their solution introduces advanced nano-scale Radar Absorbing Material (nRAM) at the manufacturing stage of offshore windfarms, ensuring RF absorption is integrated into the base materials of offshore windfarms. </p><p> </p><p><org value="ACORN:1712814837" idsrc="xmltag.org">Saab Technologies UK Ltd</org> </p><p>Phase 2 Funding: 599,692 pounds </p><p> </p><p>To incorporate Machine Learning (ML) and Artificial Intelligence (AI) techniques into air defence radar, providing a trusted air surveillance picture in noisy and cluttered environments. </p><p> </p><p><org>Trelleborg Applied Technologies</org> </p><p>Phase 2 Funding: 600,000 pounds </p><p> </p><p>Their solution is to deliver Frame (Full Radar Absorbing Materials and Equipment) to mitigate wind turbine radar interference. </p><p> </p><p><org value="ACORN:2895961927" idsrc="xmltag.org">Thales UK Ltd</org> (Project 1) </p><p>Phase 2 Funding: 481,019 pounds </p><p> </p><p>To design and demonstrate multistatic, staring radar systems using a validated synthetic environment, to provide continuous all-weather air surveillance in and around windfarms. </p><p> </p><p><org value="ACORN:2895961927" idsrc="xmltag.org">Thales UK Ltd</org> (Project 2) </p><p>Phase 2 Funding: 599,970 pounds </p><p> </p><p>A solution to synchronise two remote Holographic radars to demonstrate synchronised multi-static staring radar (MSAR), to reduce the impact of windfarm clutter and enhance detection and tracking performance. </p><p> </p><p><org>LiveLink Aerospace</org> </p><p>Phase 2 Funding: 505,938 pounds </p><p> </p><p>A solution involving multiple low-cost, multi-role, passive sensors on the nacelles of wind turbines that can transform the turbines from being a radar disrupter, to becoming the eyes and ears of an advanced air defence. </p><p> </p><p><org value="ACORN:2456961545" idsrc="xmltag.org">TWI Limited</org> </p><p>Phase 2 Funding: 600,000 pounds </p><p> </p><p>A solution to develop a novel metasurface manufacturing method for the mitigation of radar clutter caused by windfarms. </p><p> </p><p>Ensuring the <location value="LC/gb" idsrc="xmltag.org">UK</location> can continue to defend its airspace and the safe flight of aircraft </p><p>These solutions will help ensure the continued development of vital wind turbine sites, without impacting military AD and ATC. </p><p> </p><p>What happened in Phase 1? </p><p>This follows on from Windfarm Mitigation for <location value="LC/gb" idsrc="xmltag.org">UK</location> Air Defence: Phase 1, where 2 million pounds worth of contracts were awarded to Thales, QinetiQ, Saab, TWI and Plextek DTS to fast-track their ideas for technologies that could mitigate the impact of windfarms on the <location value="LC/gb" idsrc="xmltag.org">UK</location>'s AD radar system. </p><p> </p><p>Phase 1 identified and advanced multiple promising routes for windfarm radar mitigation, such as new radar signal processing methods or radar absorbing treatments and applying metamaterials to control the radar signature of wind turbines. Additional findings recommended a hybrid approach, involving changes to both radar and turbine design to solve the problem in the long term. Phase 2 studies aim to clarify this further. Read more about it here. </p><p>SOURCE <org>UK Defence Science and Technology Laboratory</org></p> </div> <img src="https://rt.prnewswire.com/rt.gif?NewsItemId=20210928062&amp;Transmission... alt="" style="border:0px; width:1px; height:1px;"></img>

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