BMW has fully committed itself to the battery-electric driving revolution by setting up a whole new sub-brand - BMW i - devoted to emission-free motoring. Now, the i group has released details of two concept cars that look set to become production models within a few years. The i3 concept is a fully-electric city car with an everyday driving range of around 160 km (100 miles) per charge, and the i8 is a sporty 4-seater plug-in hybrid that combines electric and petrol drive to give a good compromise between emission-free commuting and petrol-powered range and performance. Both cars make widespread use of carbon fiber-reinforced plastic (CFRP) to keep weight down, and both offer a raft of fascinating new driver assist and efficiency initiatives that seem likely to make it through to the real world.
A pair of new electric Beemers look reasonably close to production, each with a decidedly different focus and a sensible, utilitarian view of electric motoring. Both have been designed from the ground up to maximize the advantages of battery-powered driving, unlike other BMW efforts like the MINI E and ActiveE.
Acceleration is in the range of 8 seconds to 100 kph (62 mph), but it should be fairly zippy off the line, as it develops 100 percent of its torque from a standstill. Top speed should be around 150 kph (93 mph) - but that's electronically limited, because autobahn speeds can be brutally draining on most electric vehicles.
The i3's large battery pack sits under the floor of the vehicle in a slab that's protected from crash damage by a number of buffer zones in the structure. As batteries are typically the most expensive part of an electric vehicle, you'd certainly want to protect them.
The 170 hp electric motor, single-gear drive system and differential are located over the driven rear axle, and there's room there for an optional range extender - a high efficiency petrol engine that putts away and generates electricity to charge the batteries. With the range extender on board, you can roughly double the i3's range, and fill up at any petrol station.
All wheel drive isn't entirely accurate though - the i8 constantly proportions the power between the front and rear drive systems according to how the car is being driven. With a much smaller battery system than the i3, the i8 can only manage around 35 km (20 miles) in fully electric drive mode - but then, that would cover an emission-free commute for the majority of people. The real value of the hybrid system comes with longer range driving, where on the EU cycle, the i8 manages a whopping 104 miles per gallon (2.7 liters per 100 km). Driven hard, the fuel consumption will double, but don't forget that the Toyota Prius is advertised as a 50 mpg hybrid and is nowhere near as much fun.
Like the i3, the i8's top speed is electronically governed, but this time at a very sporty 250 kph (155 mph), so it'll hold its head high on any autobahn. The i8 will hit 100 kph (62 mph) in a brisk 5 seconds or less, decent sportscar territory there, and the car's entire underbelly is totally enclosed to boost aerodynamic efficiency and reduce fuel consumption.
The use of CFRP is necessary in order to keep the weight down - BMW says that in general, an electric drivetrain adds around 200 kg (441 lbs) to the weight of a car when compared with a petrol engine and full fuel tank. Additional weight has a major effect on energy usage, acceleration and range, however, so BMW sought to design these two new models in such a way as to keep the weight down to where it would be if it wasn't an electric platform.
There are other benefits to CFRP - particularly in the safety area. With similar strength to steel, but at only 50 percent of the weight, CFRP also allows you to design in very small deformation zones to dissipate crash energy - to quote the press release, "Pole impacts, side-on collisions and rollover tests highlight the impressive safety-enhancing properties of this extraordinarily robust material. While metal constructions require the addition of large energy absorption zones, special deformation elements in the CFRP structure allow large amounts of energy to be absorbed in an amazingly small area. Despite the heavy and sometimes concentrated forces, the material barely sustains a dent."
On the i3, this comes in the form of an accelerator/decelerator pedal, with which you're either on the gas, coasting, or braking depending on how far the pedal is pressed down. BMW estimates that around town, you can do as much as 75 percent of your braking this way - that is, without lifting your foot and hitting the brake pedal at all - and in our experience with other regenerative braking systems, that's not far off the mark. The regenerative braking system can contribute back up to 20 percent extra range to the battery charge, and it's very intuitive to use.
The press release is less clear about how the system works on the i8 - or how it works in with the petrol engine - but we assume it's something similar, including a brake pedal which seems to use the regenerative system for the first part of the pedal travel, and the conventional disc brakes beyond that.
Parking Assistant is a press-button parallel parking system that not only manages the steering to guide you into your parking spot, but also handles the accelerator, brake and gear changes for you, even if the park takes a few moves.
Traffic Jam Assistant is a wonderful stress-saver that maintains a constant distance from the car in front, all the way from standstill to 40 kph (25 mph), and actually provides active steering input as well to keep you inside your lane. You just need to keep one hand on the steering wheel as you drift off to sleep.
You can use an app to check how much charge the car has, how long it's got till it's full, and how much range it's got as you wait for it to charge - and you can also send navigation locations straight to the car's GPS system.
Your smartphone can also tell you where the nearest charging stations are, and through integration with the navigation system, it can tell you where to walk once you've parked your car to get to your destination.
ECO PRO mode instantly modifies the accelerator response characteristics so that you're constantly using less power for a given throttle application. It caps top speed at anywhere between 90 and 120 kph (56 and 75 mph), and it reduces the effectiveness of heating and cooling systems so they consume less too.
And when things get really scary, ECO PRO + mode kicks in and basically shuts down everything except the absolute necessities, like demisters and whatnot. Top speed is reined in to 90 kph (56 mph) and you can be sure you're getting maximum mileage.
It'll be interesting to see what changes on these two concepts if and when they hit the market - but it seems fairly clear that through its i division, BMW is serious about emission-free motoring and ready to get into the game with some pretty competitive products.
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