PressClub Nederland · Article.
Beproeving van de BMW i7 onder extreme omstandigheden.
Het ontwikkelingsproces voor de serieproductie van 's werelds enige puur elektrisch aangedreven luxe sedan bevindt zich in de laatste fase met beproevingen op slopende testbanen over de hele wereld. Elektrische motoren, all-wheel drive en de hoogspanningsbatterij moeten bewijzen hoe betrouwbaar en goed zij presteren onder maximale belasting. Bijgaand het volledige, Engelstalige persbericht.
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Munich. The series development process of the BMW i7 (power consumption combined: 22.5 – 19.5 kWh/100 km according to WLTP; CO2 emissions: 0 g/km; forecast based on the vehicle's development status to date) in entering its final phase with the car undergoing a demanding test programme in extreme road and weather conditions. During so-called hot-region testing on tracks and public roads all over the world, the development engineers primarily verify the performance and reliability of the electric motors, the all-wheel drive and the high-voltage battery when being exposed to maximum stress from high temperatures, unpaved roads, dust and large differences in altitude. The road to series production takes the prototypes of the BMW i7 over gravel tracks into deserts, into the mountains and on a whole series of highly dynamic routes. The BMW i7, the world's only purely electrically powered luxury sedan, will be presented in the course of 2022 together with other model variants of the new BMW 7 Series.
The endurance test in the hot regions of various countries and continents serves in particular to test and safeguard all components of the electric drive system. The components of the fifth-generation BMW eDrive technology developed for the BMW i7 demonstrate their unrestricted functionality even under the most adverse conditions when being used continuously in extremely high outside temperatures, permanent sunlight and dry conditions.
Within a firmly defined test programme for the prototypes, loads are simulated that correspond to the challenges faced by a series-production vehicle during a complete product life cycle. Supported by sensitive on-board measurement technology, experienced test engineers register every reaction of the electric motors, the high-voltage battery, drive control and the integrated cooling system as well as the charging technology and energy management to weather and road-related influences.
The testing programme, which covers tens of thousands of kilometres, includes long-distance and high-speed driving as well as stop-and-go traffic in scorching heat. In addition, test sections with particularly large differences in altitude were selected at the hot-region test sites. In this way the temperature behaviour of the electric motors and the torque control of the all-electric BMW xDrive can be analysed during a particularly dynamic and long-lasting uphill drive. To further increase the load on the drive system, the test programme also includes mountain driving in trailer mode. At the same time, the high-voltage battery shows how it able to continuously deliver peak power to supply the e-motors. As an extreme scenario and a particular challenge for energy management and power electronics, the test also involves driving downhill with a high-voltage storage system that is already fully charged at the start and can therefore no longer absorb any recuperation energy.
The gruelling hot-region test procedure is also used to put the performance of the air-conditioning and other on-board electronics, as well as the temperature resistance of the materials used in the interior, to a particularly tough test. This is all to ensure that the world's only purely electrically powered luxury sedan delivers a perfectly harmonised and exclusive driving experience in any situation.
CO2 EMISSIONS & CONSUMPTION.
Power consumption combined: 22.5 – 19.5 kWh/100 km according to WLTP; CO2 emissions: 0 g/km; forecast based on the vehicle's development status to date.
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Steep mountain roads, high temperatures: Testing the BMW i7 drive under extreme conditions. PDF, EN, 493,53 KB