Wind farms have been found to confuse existing radar systems, compromising air traffic control. This has led to a situation where around 40 wind farm projects - with a combined capital value of approximately £12bn and a potential output of nearly 6GW of renewable energy - have been delayed because of objections from the aviation sector.
Although the vision for the UK government's mitigation strategy - the Aviation Plan - states that 'there is no universal solution' to the issue, tests are now indicating that a solution based on Cambridge Consultants' Holographic Radar, can successfully distinguish between wind turbine blades and aircraft.
Tests of a prototype Holographic Radar system at Ecotricity’s 66m diameter 1.5MW turbine at Swaffham in Norfolk have provided a proof of the principle, with a small-scale system discriminating effectively between the turbine and a moving target. Further tests are planned with a scaled-up system of the same instrument and moving airborne targets, before a full-scale system is developed for testing at the site of a large wind farm.
Craig Webster, head of Cleantech at Cambridge Consultants, said: 'The vision statement for the Aviation Plan reflects the consensus of the parties that created it and is based on what was known at the time of its formation.
'However, the statement does not reflect what could be achieved by innovation and does not appear to allow for the possibility of a solution such as ours - a universal solution that could enable the large-scale generation of renewable wind energy.'
Holographic Radar is a non-scanning, continuously tracking 3D radar that can discriminate between turbines and aircraft based on easily observable differences in their behaviour. Current Air Traffic Control radars can detect an object’s movement but can’t resolve speed very well.
'Our solution works because we get to the root of problem: acquiring continuous information about every target,' said Gordon Oswald, creator of Holographic Radar at Cambridge Consultants.
'Put simply, Holographic Radar is able to tell the difference between an aircraft and a wind turbine because it can see that they behave differently,' added Craig Webster. 'It will classify and report a radar return as a target when it sees that it moves in a way that is impossible for a turbine. More importantly, when plugged into an existing radar system to provide infill coverage, it will be able to see a target turn, circle, hover or land while in the vicinity of a wind farm, restoring a level of certainty for an air traffic controller that neither scanning radar nor predictive mitigation strategies can offer.'
Cambridge Consultants has made the Aviation Plan aware of the solution and of its proposals to conduct further tests.
Nanogenerator consumes CO2 to generate electricity
Whoopee, they've solved how to keep a light on but not a lot else.