Audi aims to become a provider of carbon-neutral mobility and reduce the carbon footprint of its fleet by 30 percent over its life cycle by the year 2025. As such, not only has the use of green power been a mandatory component of supplier contracts with manufacturers of high-voltage batteries since 2018, but all of Audi’s European production sites exclusively source green power. Moreover, the company is partnering with energy providers in supporting the expansion of renewable energy sources to cover the power needs of the fully electric Audi fleet during the utilization stage.

When charging at home, Audi customers can use the green power solutions offered by Volkswagen subsidiary Elli. And for charging on the road, the IONITY charging network as well as many other charging point operators already rely on green power.

The e-tron charging system connect, designed to deliver up to 22 kW of power, lets customers with a compatible Home Energy Management System (HEMS) charge at low-cost times with a variable-rate electricity plan. If the home is equipped with solar panels, users can opt to prioritize charging the car with self-generated power. Forecast periods of sunshine are taken into account when planning the charging process.

Audi’s battery testing center in Gaimersheim ensures an ideal balance is struck between energy density and charging capacity in the battery cells used in the e-tron models. Additionally, each vehicle project entails a variety of service life and fast-charging tests on several hundred cells.

The cells have to run through various charging and load profiles that the technicians perform in climatic chambers at temperatures between -30 and +60 °C. In order to assess the cells’ aging phenomena, they are also exposed to high temperatures for the space of about a year. This allows Audi to simulate an in-car service life of up to 15 years. Service life test stands in Gaimersheim also allow the technicians to speed up reconstructed mileage scenarios of about 300,000 kilometers. Other tests include crash and overcharge testing as well as various safety tests. As such, the battery cells meet the highest service life and safety standards – decisive criteria for sustainable use.

For four years now, Audi has been electrifying Berlin. Like the Audi charging hub, the mutli-use storage system on Berlin’s EUREF Campus, with its capacity of 1.9 MWh, uses second-life lithium-ion from Audi development vehicles. In researching intelligent networking to promote the energy revolution, the site acts as a real-world laboratory by testing various interaction scenarios between electric cars and the energy grid. With a mere 20 second-life batteries, the EUREF storage system already meets 0.1 percent of Germany’s frequency stabilization needs. Audi identifies the greatest energy-economy potential in controlled charging at surplus times, i.e. periods when the grid has a surplus of renewable energy. As part of an ongoing research trial in Berlin, 18 virtual vehicles that drive for three hours and stand unused for 21 hours during a simulated day are charged intelligently using real electricity transactions on the power exchange. “In the future, the grid will determine when to charge a vehicle, without affecting its use,” says Alexander Kupfer, who is responsible for sustainable product development at Audi. The trial goes beyond controlled charging to also explore the vehicle-to-grid or V2G concept. The final vision is to achieve a symbiosis between electric cars and the power grid. Experts from Audi were able to demonstrate that in a scenario where renewable energies and e-mobility achieve 100 percent penetration, 90 percent of driving-related energy demand can be covered by surpluses of renewable energies. Conversely, this means that the energy sector will find in e-mobility a reliable customer for two-thirds of its renewable energy surpluses. “The energy revolution will be a joint effort. Our trial has shown that the energy sector and e-mobility will enter a symbiotic relationship that will drive the success of a power-based society. If we set the right course today, it won’t just be the energy system and the transport revolution that benefit. Ultimately, it will act as a crucial sustainability lever that will allow us to make the best possible use of existing resources,” says Kupfer.