With the latest design studies, the BMW Vision
With the world premiere of the BMW Vision
This makes it even easier for
"We are constantly improving our range of charging products and services in order to maximise the benefit to the customer," says
Vehicle to Home: electricity for your household
In the technology's initial stage, bidirectional charging will enable customers to essentially use their vehicle's high-voltage battery as a stationary energy storage device. Here, the carbon-neutral electricity generated by the customer's photovoltaic system is temporarily stored in the vehicle's battery with the help of the BMW DC Wallbox Professional and then subsequently fed back to power other consumers in the home, making the customer independent from the external power grid for a time and reducing their energy costs.
Vehicle to Grid: feeding into the network
The second stage of bidirectional charging will allow customers to make a portion of their battery's capacity available externally. This energy capacity can be used for both charging from the grid and discharging electricity into it at appropriate times. Access to the energy market is provided by
This function will only become available in the various markets once the necessary regulatory measures have been adopted.
Vehicle to Load: the car as a power bank
The vehicle to Load function allows energy stored in the vehicle to be used for powering external electrical equipment. This means the Neue Klasse can double as a form of mobile power bank for charging an e-bike, for example, or supplying energy to electrical equipment while camping.
Regardless of which type of bidirectional charging is used, the customer's desire for mobility always comes first. This is ensured by intuitive and easy operation in the My BMW App, which can be used to control the entire BMW Connected Home Charging ecosystem.
Accelerating the energy transition
Bidirectional charging not only ensures greater supply security. By both accepting and supplying electricity, electric vehicles can make a significant contribution to the share of electricity consumption coming from renewable sources. Using the storage capacities provided by high-voltage batteries allows supply and demand in the area of green electricity to be better coordinated. For example, electric vehicle storage systems can selectively absorb peak wind and solar energy generation and release the electricity again during periods of low generation (night, lulls) in supply. This makes it possible to reduce the start-up of fossil power plants and their emissions during such periods. In this way, electric mobility is becoming an ever more integral part of the energy revolution. With bidirectional charging, CO2 emissions can be reduced both in the area of mobility and in power generation overall.
.
(C) 2024 M2 COMMUNICATIONS, source