“It’s amazing what free energy is out there to gather up,” KRC Director Jay Meldrum told the crowd jamming the conference room in KRC’s Engineering Building.
The two-kilowatt system generates enough energy to charge all of the electric snowmobiles competing in the SAE Clean Snowmobile Challenge, held every year at KRC, but that’s just a bonus. The system’s two main purposes are to support research in photovoltaic systems and to introduce student engineers to solar technologies.
Because the facility includes a variety of solar panels, researchers can compare their performance. And scientists don’t necessarily have to be on site: Just inside the building, a monitor displays a detailed, 24/7 flow of data from each of the modules mounted just outside. All that information will soon be free and available on the Internet.
The possibilities go far beyond solar panel design, Meldrum said. Researchers can investigate how the facility integrates with the larger electric grid, the economics of solar power, and all the system’s other components.
The facility is state of the art, in part because SolarBridge Technologies, of Austin, Texas, has donated 10 microinverters. They are attached to each of the modules and convert each panel’s DC current into AC current compatible with household use.
Those microinverters are key, said two faculty members who expect to use the facility in their research. “The cool thing about this is the inverters,” said Bruce Mork, a professor of electrical and computer engineering. “You don’t need batteries. They allow you to connect directly into your local grid.”
Joshua Pearce agreed. “This is plug and play,” said Pearce, an associate professor of materials science and engineering and electrical and computer engineering. Microinverters helping to drive down the price of solar energy and make it more and more attractive to a mass market. As a result, “solar can now play ball in places where electricity is costly, like Hawaii,” he said.
Ron Van Dell, president and CEO of SolarBridge and a 1979 electrical engineering graduate of Michigan Tech, predicted that the facility will help drive solar power closer to wide-spread use. “This will be a fruitful area for research,” he said, adding that he expected the program to draw investigators from many disciplines, including business.
With an annual snowfall averaging 200-plus inches, this might not seem like the ideal spot to study photovoltaic systems. But SolarBridge tests their equipment in all kinds of conditions, from Antarctica to the American West. Snow can actually be a benefit, Van Dell said, since it reflects sunlight.
The facility has an added advantage for Michigan Tech: it may also bring more top researchers here. “The timing of this couldn’t be better,” said University President Glenn D. Mroz. “As we continue to fill positions in the Strategic Faculty Hiring Initiative in Next-Generation Energy Systems, this facility lets us demonstrate to potential faculty members that they can be successful here.”
Dow Corning, of Midland, and Hemlock Semiconductor, a partially owned subsidiary of Dow Corning based in Hemlock, donated the facility’s solar panels, which were made by a number of manufacturers. Dow Corning produces the silicones used in making the panels. Hemlock Semiconductor manufactures polycrystalline silicon, the black, glass-like material on the panels’ surface that absorbs sunlight.
没有评论:
发表评论