It’s an idea straight out of science fiction: A space station orbits around Earth, harvesting energy from the sun and beaming it down to our planet. Isaac Asimov popularized the concept in his 1941 story Reason, and futurists have been dreaming about it ever since.
But this notion is more than just an idle fantasy — it’s a highly practical concept being pursued by space agencies across the world, and it’s almost within reach of current technologies. It could even be the solution to the energy crisis here on Earth.
We spoke to one of the people hoping to make this concept happen, Leopold Summerer, the head of the Advanced Concepts and Studies Office at the European Space Agency, to learn how we might go about turning this dream into a reality.
Building a better solar power station
Solar power has many advantages over fossil fuels or other energy sources: It’s freely available, renewable, has minimal environmental impacts, and is generally low maintenance. Plus, the technology in solar panels is getting better all the time, allowing them to harvest the energy coming from the sun more efficiently.
However, it’s not without its problems. One of the biggest issues is with storage, as energy can only be collected during daylight hours, and it needs to be stored in large batteries to provide power during the night. It’s also dependent on good weather, as cloud cover will reduce the amount of energy that can be collected.
If we could build a solar power station in space, though, we’d avoid these issues. Such a station could collect solar power 24 hours a day and wouldn’t need to store energy in bulky batteries. And if it were built in orbit, then it wouldn’t experience interference from the Earth’s atmosphere. The power could also be sent directly to where it’s needed most, such as large cities.
As fanciful as it sounds, the idea actually makes a lot of sense. “It is one of these concepts that looks at first, ‘Wow, really? Why would anybody put such large structures into space if you have enough free space on Earth?’” Summerer said. But on second glance, the concept has a lot of merit. “It addresses so many of our current challenges — from climate change to energy security — that it would be irresponsible not to consider it seriously,” he added.
Space makes sense
If an orbiting solar power station seems ridiculous, consider that it’s not so very different from the space technologies we already use. Summerer pointed out that many spacecraft operate using solar panels, so “we have solar power stations in space, we just use the power locally.”
To make a power station, we’d need much larger solar panels than those used on spacecraft, and we’d need to design the hardware to handle high voltages. But that should be a matter of incrementally improving on current technologies rather than having to create entirely new solutions.
The other half of the collection and distribution of power is the transfer issue. How would power be transferred from the station to Earth? This would require wireless power transfer using either lasers or microwaves. Such technologies have already been demonstrated on Earth, with power sent wirelessly over long distances — and if we can do it on Earth, we could do it in space.
Technological challenges
Of course, there’s nothing simple about building a power station and sending it into orbit. One of the big issues would be how to put a structure as large as a power station into orbit and how it would be maintained or fixed if anything went wrong. Many proponents of space-based solar power suggest starting with a constellation of satellites, which we know how to build and launch. If one goes wrong, then there are others that would continue to work. This way, we could learn about using the technology without putting our eggs into one massive, astronomically expensive basket.
There’s also the matter of efficiency. Current wireless power transmission technologies are only so efficient. For practical purposes, you’d likely want your solar power station in low Earth orbit, at perhaps 500 miles from the planet’s surface. We’d need to improve the efficiency of wireless power transmission and also make sure the station has a powerful enough antenna to send all the power it collects down to Earth.
The technology to do all of this isn’t ready yet — but it’s also not entirely out of our reach.
“It’s not that we can launch tomorrow,” Summerer explained. “But on the other hand, there’s nothing that anyone has identified which would be a showstopper for any of the key technologies that are…
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