Erling Henningstad from Norway is one of the world’s first twenty thousand people interested in owning a
A mild summer breeze carries the sound of traffic on the E6 freeway over to Skedsmokorset. If you drive south, you’ll reach Oslo in twenty-five kilometers. If you head north, you’ll reach the North Cape in about 2,200 kilometers. Erling Henningstad, a fifty-seven-year-old software engineer sporting a neatly trimmed beard and a blue checkered shirt, walks out onto the veranda of his home and blinks in the sunlight. A flagpole flying the red, white, and blue Norwegian flag stands on the stone courtyard of a 150-year-old farmhouse with radiant white wooden walls that look as if the painters just left half an hour ago. Next to the flagpole is a Tesla Model S, which will soon be replaced—by a
Henningstad has always dreamt of owning a
Papa Erling appreciated the economic benefits of that small vehicle, but his heart didn’t quicken. It belongs to racing. He used to be a regular sight on the racetrack—for the sheer pleasure of it. Rudskogen Motorsenter, Norway’s oldest asphalt circuit, is about one and a half hours away. Fast turns on an ideal line is the perfect way to relax from work as a programmer. Around twenty-five years ago Henningstad developed information management software for the oil and gas industry, which is now used in a wide range of other sectors, including in the construction of Oslo’s new opera house.
Norway subsidizes electromobility more than any other country. Since 2012 its e-car buyers have not had to pay either the staggered CO₂-based import tax or the 25 percent sales tax on automobiles. They pay lower motor vehicle taxes in general and no tolls or parking fees. They can also drive in bus and taxi lanes. The results have been astonishing. In March of 2019, the number of newly registered electric cars exceeded the number of those with gasoline or diesel engines in Norway for the first time. Overwhelmed by success, the government stepped on the brake. Oslo no longer offers free charging power. But state subsidies have convinced men like Erling Henningstad. At first he wanted to buy two cars, one for his daily commute to the office and another with a combustion engine so he wouldn’t have to stop on the three-hundred-kilometer drive to his cabin in the Jotunheimen mountains.
Then Henningstad saw the Tesla Model S and promptly started driving only on electric power, both to his office in Oslo and to go hiking or skiing in the mountains. “That worked out well,” he says, especially because of Norway’s first high-speed charging column in Lillehammer, about half the distance to his cabin. Henningstad, his wife, Elin Lauvstad, daughter Hannah, and son Nils-Henrik usually stopped for lunch there and then continued on with a full battery. Only once did they have rekkeviddeangst, which means “range anxiety” or the fear of being stuck somewhere with a dead battery. The term was number two on Norway’s list of “words of the year” in 2013. As Henningstad recalls, “We were coming back from the mountains, and the battery actually did have enough power.” The word “actually” would apply if everything had gone as usual. But that was not the case. It was 20 degrees below zero. That took power and cost range.
It soon became clear that the remaining charge would not be enough to reach their destination, so the Tesla rolled on its last legs to a gas station with a standard electrical power outlet. “We didn’t get home until after midnight,” he says. Today he can laugh about it. “But at the time it wasn’t much fun to stand around in freezing weather at a remote gas station and wait hours for enough power to dribble into the battery cells.”
That never happened again. Range anxiety levels decrease with every new charging column. At the end of last year Norway had 10,711 public charging stations—for the current figure of around 220,000 electric cars. Nobody is worried that the infrastructure won’t be able to handle the boom in electric vehicles. Most buildings in Norway are heated with electricity. The grid is correspondingly robust and generously dimensioned. Because the buildings need ever lower levels of energy thanks to modernization and better insulation, the system has sufficient capacity for electric cars. And finally, nearly all electric power in Norway comes from renewable sources and is therefore produced without CO₂ emissions. Hydroelectricity accounts for around 96 percent of it.
“An electric motor lets you drive more cleanly than any other type of drive system—at least over the long run,” says Henningstad. “It’s important for cars to emit as few pollutants and make as little noise as possible, especially in Oslo and the densely populated surrounding areas.” It’s “great” that this is now possible with a
Henningstad has not yet determined the exact trim for his
For his first drive in the
* Data determined in accordance with the measurement method required by law. Since 1 September 2017 certain new cars have been type approved in accordance with the Worldwide Harmonised Light Vehicles Test Procedure (WLTP), a more realistic test procedure to measure fuel/electricity consumption and CO₂ emissions. As of 1 September 2018 the WLTP replaced the New European Driving Cycle (NEDC). Due to the more realistic test conditions, the fuel/electricity consumption and CO₂ emission values determined in accordance with the WLTP will, in many cases, be higher than those determined in accordance with the NEDC. This may lead to corresponding changes in vehicle taxation from 1 September 2018. You can find more information on the difference between WLTP and NEDC at www.porsche.com/wltp.
Currently, we are still obliged to provide the NEDC values, regardless of the type approval process used. The additional reporting of the WLTP values is voluntary until their obligatory use. As far as new cars (which are type approved in accordance with the WLTP) are concerned, the NEDC values will, therefore, be derived from the WLTP values during the transition period. To the extent that NEDC values are given as ranges, these do not relate to a single, individual car and do not constitute part of the offer. They are intended solely as a means of comparing different types of vehicle. Extra features and accessories (attachments, tyre formats, etc.) can change relevant vehicle parameters such as weight, rolling resistance and aerodynamics and, in addition to weather and traffic conditions, as well as individual handling, can affect the fuel/electricity consumption, CO₂ emissions and performance values of a car.
** Important information about the all-electric