MIT researchers create super efficient 'origami' solar panels
by Jerry James Stone, Mother Nature Network, April 8, 2010
Photo: Jeffrey Grossman, Bryan Meyers and Marco Bernardi of MIT
MIT researchers have created an origami-like solar structure that is much more efficient than current flat panels.
The three-dimensional solar structure could, at least in principle, absorb a lot more light and generate more power than a flat panel containing the same area footprint. The hope is that all unused light which has been reflected off one panel would be captured by other panels. Panels of this type would be most ideal in circumstances with limited space.
"This was a fully 'bio-inspired' idea," said researcher Jeffrey Grossman, a theoretical physicist at MIT. "I was hiking up at Lake Tahoe in California and noticing the shapes of trees, and wondering, 'Why do they have a given shape over another?'"
Research into photovoltaic panels has largely kept them flat to prevent any sort of shadow effect. Shadowing could heavily diminish the amount of light panels harvest. In addition, 2-D panels are easier to install on rooftops, and they are also better suited for large-scale fabrication techniques.
Scientists used a "genetic algorithm" to evolve solar panels in a computer simulation thus determining the optimal 3-D shape for harvesting the largest amount of light. It created random combinations of flat, triangular, double-sided panels and then analyzed them in response to the sun's movement across the sky. The best ones were then "mated" to create "offspring." The process was repeated for millions of generations to see what might evolve.
With a 1,000 square-foot area, flat solar panels generate about 50 kilowatt hours daily. In comparison, the newly discovered 3-D structure researchers came up with could harvest more than 60 kilowatt hours each day with a structure about 6 feet high. A structure 33 feet high could harvest 120 kilowatt hours daily.
This is not the first time we've seen 3-D solar, but the first time it's been this big. Previous research has explored 3-D solar but on a nano-based level.
"I originally thought that such structures would only be useful in situations where area is at a premium — for example, rooftops," Grossman said. "Lately, though, we have been exploring more and more directions for ideas that may make 3-D structures more appealing than flat panels, even when area is not limited."
Of course, these jagged clusters would be a bit unwieldy to use so the scientists created a simplified structure that generates about the same amount of energy.
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