The Difference Between Tesla And BMW (ICE) Propulsion
TESLA LESSON: LEARN THE BASIC DIFFERENCES BETWEEN ELECTRIC VEHICLES AND GAS BURNERS [VIDEO]
A new video in the Learn Engineering series offers a seven-minute introduction to the workings of an electric drivetrain, and how it differs from its internal-combustion counterpart. It features clear and effective animation, and explains the pros and cons of each powertrain type in language simple enough for anyone to understand. If you struggle to explain the advantages of going electric to your “car guy” friends, this would be a handy vid to share with them.
*This article comes to us courtesy of EVANNEX (which also makes aftermarket Tesla accessories). Authored by Charles Morris.
Above: Comparing electric cars with petrol cars (Youtube: Learn Engineering)
Compared to a modern electric drivetrain, the internal-combustion engine (ICE) is far more complex – it requires a crankshaft with counterweights to translate the linear motion of the pistons into rotational motion, a flywheel to smooth power output, a DC motor for starting, an alternator to charge the battery, a cooling system, and a host of other gadgets that an electric motor doesn’t need. An induction motor, which produces direct rotational motion and uniform power output, is smaller and lighter, and doesn’t need a complicated transmission to connect it to the drive wheels.
ICE vehicles do have a couple of advantages over current EVs. They can be refueled in a few minutes, whereas a typical battery pack takes at least half an hour to be recharged. Also, petroleum fuels are much more energy-dense than lithium-ion batteries, meaning that they store more energy per pound. An EV’s energy storage medium – its battery pack – is necessarily large and heavy. However, in native EVs (those that are not adapted from gas vehicles) this drawback is turned into a feature by making the battery pack flat and placing it at the bottom of the chassis. This gives the vehicle a low center of gravity, which greatly improves handling, and adds rigidity, making the vehicle safer in a side crash. It also opens up more space for passengers and cargo.