PressClub Portugal · Article.
Track facts and key factors: the BMW i Andretti Motorsport preview for the Julius Baer Swiss E-Prix.
24.06.2019 Informação à Imprensa
This coming weekend, the ABB FIA Formula E Championship will be in Bern (SUI) for the first time, for the eleventh race of the season. Our preview provides you with the most importance facts about the circuit and the key factors for a successful Julius Baer Swiss E-Prix.
send an e-mail
Munich. This coming weekend, the ABB FIA Formula E Championship will be in Bern (SUI) for the first time, for the eleventh race of the season. Our preview provides you with the most importance facts about the circuit and the key factors for a successful Julius Baer Swiss E-Prix.
TRACK FACTS BERN.
2.750 km. Anticlockwise.
8 left and 6 right handers. Slowest corner: under 50 km/h. Fastest corner: approx. 90 km/h.
Probably very uneven, alternating surfaces.
Low. Leaves may make the track slippery and be a disadvantage for qualifying group 1.
Very demanding. Relatively high average speed. Therefore, relatively high energy consumption. Great differences in altitude (up to 50 metres). Relatively high top speed on a downhill section (approx. 225 km/h). Several straights, but a very narrow track make overtaking very difficult.
Likely to be high. Narrow chicanes and long straights mean lots of stopping and starting on the track.
ATTACK MODE is activated on a straight. This means there will be hardly any time loss.
Very long and narrow.
Risk of crashes
Very high due to the narrow, demanding track.
Good starting position, great efficiency of drive train, good and exact energy management.
Quotes ahead of the Julius Baer Swiss E-Prix:
Roger Griffiths (Team Principal BMW i Andretti Motorsport):
“Bern as a venue is uncharted territory for every Formula E team. In the first instance, this poses organisational and logistical challenges for us because we need to get to grips with a new environment. From a racing perspective we have some simulation data, but will only really be able to tell what is in store once we get there. This is good news for Alexander Sims, since as a Formula E rookie this time he will be starting the race weekend on exactly the same basis as his experienced rivals. We hope that the track will suit us and that we can end the European season on a high.”
Alexander Sims (#27 BMW iFE.18):
“It feels good to be coming to Bern with a top ten result in Berlin under my belt. The circuit there will be new for everybody, so we are all starting under the same conditions. The goal must be to get used to the conditions as quickly as possible and to have a steep learning curve. At first glance, the track looks very tight and has plenty of climbs and descents. It is very different to the circuit in Berlin. I am excited about the challenge as Formula E provides new surprises from race to race.”
António Félix da Costa (#28 BMW iFE.18):
“Bern is the last race before the grand season finale in New York. Looking at the championship, it is especially important to record a good result there and hopefully be involved in the battle for the win. The circuit looks very exciting but we will only get a real feeling for it when we are there, as none of us have driven in Bern before. Switzerland was a great host last year, so I am really looking forward to the race.”
The FANBOOST vote.
FANBOOST gives Formula E fans the opportunity to vote for their favourite driver and award them an extra boost of power during the race. The five drivers with the most FANBOOST votes are awarded a significant burst of power, which they can deploy in a five-second window during the second half of the race. Fans can vote for their favourite driver in the six days prior to, and leading up to 15 minutes into, each race. Each fan can vote once per day. There are three ways to vote: Online at https://fanboost.fiaformulae.com/, via the official Formula E App or on Twitter using the hashtag #FANBOOST plus the drivers first and last name as a one-word hashtag.
Hashtags of the BMW i Andretti Motorsport drivers:
The BMW i Fleet
BMW i is “Official Vehicle Partner” of the ABB FIA Formula E Championship in Season 5. Spearheading the fleet are two Safety Cars: The BMW i8 Roadster Safety Car (combined fuel consumption: 2.0 l/100 km; combined power consumption: 14.5 kWh/100 km; combined CO2 emissions: 46 g/km)*, which has been specially modified for use at the racetrack, and the BMW i8 Coupé Safety Car (combined fuel consumption: 1.8 l/100 km; combined power consumption: 14.0 kWh/100 km; combined CO2 emissions: 42 g/km)*. The BMW i fleet also includes the BMW i3s (combined fuel consumption: 0.0 l/100 km; combined energy consumption: 14.3 kWh; combined CO2 emissions: 0 g/km)* as “Race Director Car” and the BMW 530e (combined fuel consumption: 2.2-2.1 l/100 km; combined energy consumption: 13.6-13.3 kWh/100 km; combined CO2 emissions: 49-47 g/km)* in its role as “Medical Car”.
CO2 EMISSIONS & CONSUMPTION.
The values for fuel consumption, CO2 emission and energy consumption
shown were determined in the standardized test cycle according to the
European Regulation (EC) 715/2007 in the version applicable at the
time of type approval. The figures refer to a vehicle with basic
configuration in Germany and the range shown considers optional
equipment and the different size of wheels and tires available on the
The values are already based on the test cycle according to the new WLTP regulation and are translated back into NEDC-equivalent values in order to allow a comparison between vehicles. With respect to these vehicles, for vehicle related taxes or other duties based (at least inter alia) on CO2-emissions the CO2 values may differ to the values stated here.
Further information about the official fuel consumption and the official specific CO2 emission of new passenger cars can be taken out of the „handbook of fuel consumption, the CO2 emission and power consumption of new passenger cars“, which is available at all selling points and from Deutsche Automobil Treuhand GmbH (DAT), Hellmuth-Hirth-Str. 1, 73760 Ostfildern-Scharnhausen, and under https://www.dat.de/co2/.