By Marcia Goodrich
Michigan Technological University News
By 2022, federal regulations will require a 400 percent increase in the amount of renewable fuel in America's gasoline, from 9 billion to 36 billion gallons.
Cars and trucks are being designed to run on these ethanol-rich fuels. But can a snowmobile?
"Now, the maximum amount of ethanol in most fuel is 10 percent, or E10," says Scott Miers, an assistant professor of mechanical engineering-engineering mechanics at Michigan Technological University. "What if it goes to E15? How will that affect snowmobiling?"
For the owners of the 1.7 million snowmachines registered in the U.S., it's a serious question. Miers will begin to answer it this winter. He will test snowmobile emissions and fuel economy on E15 fuel, both in the lab and on the trail. He will also study how well snowmobiles start at low temperatures on the higher-ethanol blend. "If you can't start in the cold, you can't snowmobile," Miers noted.
The research will be conducted in cooperation with the SAE Clean Snowmobile Challenge, hosted annually by Michigan Tech and set for March 15-20.
The Clean Snowmobile Challenge is a collegiate design competition of the Society of Automotive Engineers. Engineering students from participating schools take a stock snowmobile and reengineer it to reduce emissions and noise while maintaining or boosting performance. In 2009, teams adapted their engines to run on flex-fuel, with varying ratios of ethanol and gasoline.
"This study is a great fit for the Challenge," said Jay Meldrum, who co-organizes the event as executive director of the Keweenaw Research Center. "The snowmobiling community is wondering what will happen if ethanol increases to E15 or E20."
The $69,000 project is funded in part by a $25,000 grant provided by the Bureau of Energy Systems, part of the Michigan Department of Energy, Labor and Economic Growth. Gage Products of Ferndale is providing fuel, and Yamaha is donating a snowmobile. Emissions testing equipment will be provided by the Clean Snowmobile Challenge.
Co-principal investigators on the project are Meldrum and Jason Blough, associate professor of mechanical engineering-engineering mechanics.