Electric bus charges wirelessly at U of U


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SALT LAKE CITY -- A radically new way of moving people around on the University of Utah campus is about to become a reality, thanks to 2.7 million dollars in start-up funds from the federal government.

A new transit route through the heart of the campus will feature a full-size city bus, operated with an electric motor. But it will never need to be plugged in. Instead, it will get its energy wirelessly thanks to a magnetic field emanating from the pavement.

If it works, it's a significant step toward the so-called "Highway of the Future," a concept in which electric vehicles could draw their energy from the pavement, without ever stopping to recharge. The electric bus approach is much more modest, relying on a single magnetic pad buried under asphalt. But it's already stirring national interest among transit experts.

The concept relies on breakthrough technology developed at Utah State University in Logan. The bus will be equipped with its electric charging system by WAVE, Inc. a Utah State University spin-off company.

"If it works well on the University of Utah campus," said WAVE CEO Wesley Smith, "our model will be to duplicate that to transit agencies around the country as well as campuses around the country." If the technology ever returns a profit, USU would share in the revenue.

Courtesy WAVE Inc.
Courtesy WAVE Inc.

Magnetic induction technology itself is not new; it's been used for years in a variety of products, including electric toothbrushes, cellphone chargers and power strips in factories. But experts at Utah State University's Energy Dynamics Lab claim to have improved the technology to make it practical for charging vehicles, whether at a dead stop or in motion.

They say the energy transfer is so efficient they can move electricity through the air across a ten-inch gap while losing only two percent of the energy.

The electric bus route on the University of Utah campus will be anchored at the TRAX station near the Huntsman Center and the LDS Institute of Religion. The bus will haul students and faculty into the heart of the campus on a one-mile route. Each time it returns to the TRAX station, the bus will recharge its batteries quietly as it waits for passengers, simply by stopping above a magnetic pad buried in the pavement.

"The elegance of the system is that no bus driver is going to get out and plug in a bus charger for 45 seconds," Smith said. "But if all he has to do is drive over a pad and use a charger for 45 seconds, that's much more user friendly from the perspective of a bus operator."

What is... Wireless Power Transfer?
Wireless Power Transfer (WPT) is a method of delivering power to a device over an air gap—no physical contact is required.

The bus will use the first transit route to be built through the center of the University of Utah campus; existing student shuttle buses circle the campus on perimeter streets. When the new transit lane was proposed, some professors objected to the idea of smelly, noisy buses driving past classroom buildings. The new concept seems to address that concern; a bus operating on magnetic induction technology would be extremely quiet and would have no tailpipe emissions at all.

Another advantage is that the bus will not need heavy, expensive batteries, one of the major factors that has dampened worldwide enthusiasm for electric vehicles. "We can reduce the battery size on this University of Utah route by 85 percent," Smith said.


We can reduce the battery size on this University of Utah route by 85 percent.

–Wesley Smith, CEO of WAVE, Inc.


Utah Governor Gary Herbert watched a demonstration of the technology at the Energy Dynamics Lab. He was touring Northern Utah facilities that are developing new methods of achieving cleaner, sustainable energy.

"Well, I think what I'm learning here," the governor said, "is the important role that our universities play with research and development that then translates into private sector job development."

Backers of USUs magnetic induction approach say there's no technological reason it couldn't be used for the so-called "Highway of the Future." Magnetic induction pads placed under streets and highways could charge vehicles on the go, without stopping.

"The ultimate vision," Smith said, "is that you would convert all of your internal combustion engines in a city to electric vehicles and they would charge as they were in motion."

If the system works here, it could see widespread use. WAVE is already discussing similar systems with five major transit agencies around the country. And there's also talk of a trolley system in Salt Lake City that would run wirelessly.

Email: hollenhorst@ksl.com

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John Hollenhorst

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