While some electric cars may have a decent range in places like California, they're not so impressive in locations with frigid winters. That's because their battery is powering not only the motor, but also the cabin heating system. Now, however, engineers at Germany's Fraunhofer Institute for Manufacturing Engineering and Automation are developing new technology that could keep EV drivers warm, without leaving them stranded.
In regular internal combustion vehicles, much of the heat needed to warm the interior is generated by the engine. Because EVs' motors don't get nearly as hot, the cars' cabins generally incorporate things like silicone heating mats with integrated conductive copper wiring. These can be bulky and heavy, however, plus they stop working if any of the wires are damaged, and they still draw a lot of power from the battery.
Instead, the Fraunhofer team has created thin films covered with carbon nanotubes. These films are glued to surfaces such as the interior door panel arm rests, and have an electrical current run through them. As that current moves through the film, it generates heat as it encounters resistance between the individual nanotubes.
Because the film itself doesn't store much heat, the warmth that's generated is quickly and efficiently released into the cabin. The material also cools quickly once the current is switched off. As a result, the nanotube film reportedly uses much less power than copper wire-based systems, it's considerably thinner and lighter (it's just a few micrometers thick), plus localized damage to the film won't negatively affect the function of a whole sheet.
Additionally, as with existing heating systems, users can control how much heat the Fraunhofer system puts out.
In its present form, the film must be applied to curved surfaces in individual pieces to keep it from crinkling. Down the road, however, the researchers hope to be able to spray the nanotubes directly onto such surfaces – this would make the technology both easier and cheaper to integrate into vehicles.
The company will be presenting the system later this month, at the International Motor Show in Frankfurt.
Source: Fraunhofer
If you want to see proof of this in action, on a very cold week, put an EV in a heated garage and charge it overnight. Then check the range in the morning and drive it to work. Park in an outdoor unheated area, and check the remaining range. When you come out 9 hours later, you will find that your range has dropped off dramatically from what it was when you went inside, even though the car was turned off.
This always has been one of the big disadvantages of EVs in cold areas.
Cheers.