Scientists dream up a massive floating solar farm in space – here’s how it would work. Source: euronews Green

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Scientists dream up a massive floating solar farm in space – here’s how it would work

A massive solar space farm could provide as much energy as a nuclear power plant, the European Space Agency has said.

A massive solar space farm could provide as much energy as a nuclear power plant, the European Space Agency has said.   –   Copyright  Canva

By Hannah Brown  with EBU  •  Updated: 18/10/2022 – 13:33

It sounds like the stuff of science fiction – but Europe might one day be powered by giant floating solar panels orbiting the planet.

The European Space Agency (ESA) has unveiled a plan to harvest the sun’s energy in space and beam it back down to Earth.

The technology is still in the preliminary testing phase – but the end goal is the construction of a 2km long solar space farm, generating as much energy as a nuclear power plant.

The farm would orbit an eye-watering 36,000 km above the Earth.

“[Such a project] would ensure that Europe becomes a key player– and potentially leader – in the international race towards scalable clean energy solutions for mitigating climate change,” the ESA said in a statement.

How will the space farm technology work?

Solar power is one of the best sources of clean energy, but it’s currently held back by a few limitations. Panels can only harness power in the daytime, and even then, much of the sunlight is absorbed by the atmosphere on its journey to the ground.

In Space, the sun’s beams are around ten times as intense as they are on Earth.

The ESA have partnered with Airbus – a European multinational aerospace corporation – to develop ‘wireless power transmission’ to capture this 24-hour source of electricity and beam it down to us.

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The sun’s rays are 10 times as strong in space, where they are not diluted in the atmosphere.Cleared

The technology is based on the transmission used by TV and communication satellites every day, Airbus engineer Nicolas Schneider explains.

“We are not very far from a 4G antenna, except that what we want is not to radiate in all directions, we want to be very precise like a laser, in fact,” he says.

“It’s a wave that can be directed to this receiving antenna which will then transform this wave into electricity.”

The problem is scale. The satellite would have to be massive, so would be difficult to launch and build.

But with technology evolving rapidly, the project could be a reality in coming decades. The ESA will discuss the Solaris project at its meeting in November.

The satellite would be repaired by robots while in orbit, explains Gwenaëlle Aridon, hHead of the Robotics Laboratory at Airbus Defence and Space.

“The robot will be able to come and repair a panel, remove it and put a new one on if necessary,” she said.

“Having [robot] manipulators reboot arms would effectively reduce the cost of the operations that are carried out.”

It may be a logistical challenge – but as energy crises shift and unfold, it could eventually be a game changer.

A single solar power satellite of the planned scale would generate around two gigawatts of power, equivalent to a conventional nuclear power station or six million solar panels on earth.

The resulting energy could power more than one million homes.

Journalist • Charlotte Elton

Video editor • Joanna Adhem

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