Last week, the Japanese newspaper Nikkei caused a buzz by reporting that a redesigned Toyota Prius, to be released next year, will come equipped with solar panels. Toyota spokespeople will neither confirm nor deny the report, but several companies already offer solar roof kits for the Prius, and researchers at the U.S. Department of Energy’s National Renewable Energy Laboratory (NREL), in Golden, CO, have been testing one on a Prius modified to plug into the electrical grid. Their conclusion: for the time being, plug-in hybrids charged from stationary solar arrays are a more efficient and cheaper option.
The idea of car-mounted solar cells is not new: in the early 1990s, Mazda offered its 929 luxury sedan with optional solar cells in the glass sunroof to drive fans that removed hot air from the car. But most onboard solar systems to date have cost several thousand dollars while generating less than 100 watts of energy, improving a vehicle’s fuel efficiency by just a few percent. “I think it’s more a marketing gimmick,” says Andrew Frank, a plug-in hybrid pioneer at the University of California, Davis, and chief technology officer for UC-Davis hybrid-vehicle spinoff Efficient Drivetrains. “It takes kilowatts to really drive the car.”
The limited surface area of the car roof is one constraint on the panels’ power production. Another is that they can’t be tilted perpendicular to the sun for optimal energy capture, unlike most photovoltaics on buildings or in solar farms, which either track the sun or are installed with a fixed southward tilt.
The NREL researchers tested the extent of these limitations by equipping the plug-in Prius they built earlier this year with the most powerful rooftop solar panel on the market. Assembled by Solar Electrical Vehicles, based in Westlake Village, CA, the panel completely covers the Prius roof, wiring together 146 four-inch-square crystalline-silicon cells capable of generating a total of 215 watts. However, NREL senior engineer Tony Markel says that his group’s tests suggest that the output will max out at closer to 165 watts under normal use.
That’s a meager improvement compared with the boost that the plug-in Prius gets from its extra lithium-ion battery. Markel says that the six kilowatt-hours of electricity available from the fully charged battery enable NREL’s Prius to get about 100 miles per gallon in the first 50 miles of driving–more than double the fuel efficiency of a standard Prius. Put another way, the overnight charging should take the car about 50 miles in light-duty driving. Markel says that NREL has yet to quantify the solar panel’s additional impact, but that the five hours of good sunlight the car sees on an average day would give it an electrical output of at most 0.825 kilowatt-hours. The system would probably boost the plug-in’s fuel efficiency for the first 50 miles from 100 to 105 miles per gallon, he says.