eCarTec 2009: Electric Cars

Multicar Fumo E1 auf der Elektroauto-Messe eCarTec 2009 (Foto: Frank Völkel)
Multicar Fumo E1 (photo: Frank Völkel)

If batteries hadn’t had their limitations right from the start, diesel and gasoline combustion engines would never have become so pervasive. After all, the electric motor was already far more effective over a hundred years ago – apart from the problem of energy storage. Let’s compare: Diesel delivers around 12,000 watt hours per kilogram of fuel, while state-of-the-art rechargeable batteries can only just store 150 watt hours per kilogram. In other words, diesel stores around 80 times more energy than batteries of the same weight.

From a purely objective perspective, batteries put electric mobility on a short leash – but great progress has been made in rechargeable battery technology over the last 10 years. Above all, the lithium-ion battery has taken the consumer market by storm. Lithium is the lightest metal and has the highest negative potential in the electrochemical series, with lithium-ion batteries having a typical charging voltage of 3.6 V. Another option is the lithium polymer battery, which differs in that the lithium-salt electrolyte is not held in an organic solvent, but in an ion-permeable synthetic membrane.

Car batteries – which, due to the amount of energy needed, require dozens of lithium-ion cells to be connected in series to form a high-voltage system – must be stored between 25°C and 40°C. Unlike rechargeable batteries in notebooks or cell phones, batteries in electric cars can expect to have a lifespan of at least 10 years. This is because the price per kilowatt hour is still around €1,000 – which means a comparatively small battery with a capacity of 20 kilowatt hours would cost some €20,000.

Next Page: Tesla Roadster with Batteries for Notebooks

Hai E3 aus Österreich mit Radnabenmotoren (Foto: Frank Völkel)
Hai E3 from Austria (photo: Frank Völkel)

Tesla Roadster auf Basis des Lotus Elise mit Notebook-Akkus (Foto: Frank Völkel)
Tesla Roadster (photo: Frank Völkel)

The environmental debate of the past few years could not have been more explosive. If industrialized nations want to achieve their carbon goals, they will have to look for alternative ways to power vehicles – a view that was clearly echoed at the SAP Utilities Conference held nearby (see article Electricity Meters 2.0).

The combustion engine is facing competition. There will be no way around batteries and battery-powered vehicles. Environmentally friendly, low-energy, electric cars will soon be booming. Here’s an overview of current developments, as seen at the eCarTec 2009 in Munich, Germany between October 13 and 15.

The Tesla Roadster sports car, for example, uses 18650 cells in its battery packs, as are standard in portable computers. They are produced by the Canadian company E-One Moli Energy and the Tesla Roadster is powered by 6,831 cells, resulting in a capacity of 55 kWh.

Daimler has now reached an agreement with Californian-headquartered Tesla, which will supply the batteries including charging units for Daimler’s smart brand of automobile. Tesla has been making waves with its own Roadster production car since 2003.

Next Page: Elektro Smart

Tesla Roadster - Steuereinheit im Heck
Tesla Roadster (photo: Frank Völkel)
Der Smart ED steht kurz vor dem Serienstart (Foto: Frank Völkel)
Smart ED (photo: Frank Völkel)

Daimler’s smart fortwo electric drive has a range of 150 kilometers (93 miles) purely using battery power (31 kW). This small car will soon be equipped with the same 400-volt batteries as the Tesla – and Daimler plans to launch the new model before the end of this year. Trials took place in London with 100 vehicles that used the conventional smart chassis. The electric motor developed by British-based company Zytek with a 55 kW (75 hp) drivetrain weighs 60 kg and can easily accelerate to over 60 mph (100 kph), although the speed was limited to 60 mph in the city trial.

Next Page: Inducitive Charging

Ladebuchse hinter der Tankklappe am Smart ED (Foto: Frank Völkel)

Tankstelle der Zukunft und induktives Aufladen bei E.ON
Gasoline Station in the Future from E.ON (photo: Frank Völkel)

“Inductive charging” was one of the event’s biggest talking points, with energy giant E.ON planning to use this technology to charge the cars of tomorrow. With inductive charging, the car is driven onto a mat containing an induction coil. A second induction coil is attached to the undercarriage of the car. Instead of using a cable, the energy is transferred across a magnet field – flowing more or less through the air. Current applications for electric cars are still at the development stage.

By 2020, more than a million battery-powered cars are set to be in use in Germany. This is not only good news for the environment, but also for automobile manufacturers and their component suppliers, who are hoping to generate substantial sales. Furthermore, utility companies will be able to tap new markets – in the construction and production of the new vehicles, as well as in recharging their batteries.