— Gadgets

$100M donation powers decade-long moonshot to create solar satellites that beam power to Earth – TechCrunch

It sounds like a plan concocted by a supervillain if that villain’s dastardly end was to provide cheap, clean power all over the world: launch a set of three-kilometer-wide solar arrays that beam the sun’s energy to the surface of the Earth. Even the price tag seems gleaned from pop fiction: one hundred million dollars. But this is an actual project at Caltech, funded for nearly a decade mainly by a single donor.

The Space-based Solar Power Project has been underway since at least 2013 when the first donation from Donald and Brigitte Bren came through. Donald Bren is the chairman of Irvine Company. On the Caltech board of trustees, and after hearing about the idea of space-based solar in Popular Science, he proposed to fund a research project at the university — and since then has given more than $100 million for the purpose. The source of the funds has been kept anonymous until this week when Caltech made it public.

The idea emerges naturally from the current limitations of renewable energy. Solar power is ubiquitous on the surface, but of course, highly dependent on the weather, season, and time of day. Even in ideal circumstances, no solar panel can work at total capacity all the time, so the problem becomes one of transferring and storing energy in an intelligent grid. No solar panel on Earth that is. However, a solar panel in orbit may be exposed to the whole light of the sun nearly all the time, and with none of the reduction in its power that comes from that light passing through the planet’s protective atmosphere and magnetosphere.

The latest prototype was created by the SSPP, which collects sunlight and transmits it over microwave frequency. Image Credits: Caltech

“This ambitious project is a transformative approach to large-scale solar energy harvesting for the Earth that overcomes this intermittency and the need for energy storage,” said SSPP researcher Harry Atwater in the Caltech release. Of course, you would need to collect enough energy that it’s worth doing in the first place, and you need a way to beam that energy down to the surface in a way that doesn’t lose most of it to the aforementioned protective layers but also doesn’t fry anything passing through its path.

These fundamental questions have been looked at systematically for the last decade, and the team is clear that this project wouldn’t have been possible without Bren’s support. Attempting to do the work while scrounging for grants and rotating through grad students might have prevented it’s being done at all. Still, the steady funding meant they could hire long-term researchers and overcome early obstacles that might have stymied them otherwise. The group has produced dozens of published

studies and prototypes (which you can peruse here), including the lightest solar collector-transmitter made by order of magnitude. It is now on the verge of launching its first space-based test satellite. [Launch] is currently expected to be Q1 2023,” co-director of the project Ali Hajimiri told TechCrunch. “It involves several demonstrators for space verification of key technologies involved in the effort, namely, wireless power transfer at a distance lightweight, flexible photovoltaics and flexible, deployable space structures.”

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