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In Neckarsulm, Audi builds the Audi A4 Sedan, the A5 Cabriolet, the models in the A6 series including the RS 6 Avant, the A7 and RS 7 Sportback, as well as the A8 luxury Sedan. Neckarsulm is also home to Audi Sport GmbH – a fully owned subsidiary of AUDI AG. In addition to the high-performance models in the R8 series, which are built exclusively at the Neckarsulm plant, Audi Sport GmbH supplies customers with RS models, the sporty high-performance vehicles that represent the top models in the respective series. Furthermore, Audi Sport GmbH offers exclusive customisation options and high-quality lifestyle articles relating to the Audi brand. Audi Sport GmbH is also responsible for Audi Sport customer racing.

Article source: www.audi.com

Discover a powerful, athletic design with driving performance to match. A host of exterior details underscore the new Audi TT RS Coupé’s uncompromising motorsport character: for example, the RS bumpers with large side vents, the optional carbon wing mirror housings and the optional RS sports exhaust system with gleaming black oval exhaust trims. The new Audi TT RS Roadster opens up new perspectives. It takes just ten seconds to open or close the soft top – even when driving at up to 50 km/h. The striking Audi Singleframe grille gives the front a distinctive look, with the characteristic RS honeycomb lattice and quattro lettering in a contrasting color.

tart the engine. Select a gear. Give it some gas. With a power output of 294 kW and up to 480 Nm of torque, the new Audi TT RS Coupé can sprint from 0 to 100 km/h in just 3.7 seconds. And then up to a maximum speed of 250 km/h – or even, optionally, 280 km/h.

Article source: www.audi.com

Audi represents Vorsprung durch Technik. That means thinking today about the future of mobility. But it’s not just a question of design or performance – it’s also a question of how to power our cars to get from A to B. And from today to tomorrow.

We are pushing forward innovations in this area: not simply by building efficient engines, but also by developing alternative drive and mobility concepts. By also seeking inspiration from nature for new sources of power that allow us to travel new paths. An innovative contribution to this goal is made by our Audi g-tron models – in combination with Audi e-gas. One example is the Audi A5 Sportback g-tron¹: 80% less CO2/km with Audi e-gas technology purely in gas mode (CNG) on a well-to-wheel assessment (a calculation of emissions that includes both the production of fuel and the running of a vehicle) compared with the Audi A5 Sportback 2.0 TFSI²with 140 kW. As a g-tron customer, you can refuel as usual at any CNG filling station. AUDI AG ensures that the total amount of gas consumed by the vehicle, calculated on the basis of legal standards for measuring fuel consumption and emissions as per NEDC/WLTP and statistical data on the annual mileage of Audi g-tron models that were ordered during the period 7 March 2017 to 31 May 2018 is replaced by Audi e-gas – for a period of three years after first registration as a new vehicle (the amount of CO2 saved is also calculated on this basis and may be lower in actual practice when running the vehicle). The Audi e-gas is fed into the European natural gas network, replacing fossil natural gas.

Another step towards our vision of premium carbon-neutral mobility.

With the Audi g-tron models and Audi e-gas as fuel from our own production sites and from partner facilities, the approach we are taking for our drive solutions isn’t just a matter of efficient engines, but also of the ecology of the entire energy system. A matter of enabling mobility that’s innovative before the vehicle has even driven a single metre. That’s the idea behind “Vorsprung starts before you drive”. And behind the combination of Audi g-tron and Audi e-gas. Find out more about our holistic drive concept here.

Audi e-gas is a fuel that we developed in our own production facilities. It is made using renewable energy sources, water, CO2 and waste materials. Various processes are used to extract CO2 from the atmosphere, which is then converted into Audi e-gas by biomethane and power-to-gas plants. The power-to-gas plants split water into hydrogen and oxygen exclusively using renewable energy. The oxygen is released into the air and the hydrogen reacts with CO2from the biomethane plant to form methane: our Audi e-gas. The biomethane plants demonstrably only use waste materials in which CO2 is also bound. This gives Audi e-gas an important advantage: the exact overall amount of CO2 that is emitted by the vehicle according to standard consumption is bound in the fuel. The additional CO2 emissions generated by the construction of the fuel plants, transport and compression of the fuel at filling stations are included, so that on an overall assessment CO2 emissions can be reduced by 80%³. That means we don’t just focus on efficient fuel consumption, but also on the production of the fuel itself.

Back in 2013, Audi commissioned the world’s first industrial-scale power-to-gas plant: the Audi e-gas plant in Werlte. For the first time, large quantities of fluctuating energy generated from wind and solar power could be stored in the natural gas grid on a long-term basis. Very effective, because the expansion of fluctuating energy sources like wind means that it’s increasingly common for excess power to be generated. The power-to-gas process makes use of this excess power as fuel for mobility, which is why we believe the Audi e-gas project can be a crucial element and driver of energy transition.

Alongside this solution for the g-tron fleet, we are also working to develop other synthetic liquid fuels that could have a potential to reduce CO2 that is similar to Audi e-gas. We call them Audi e-fuels. One example is Audi e-benzin, which is currently under development – and is already being tested in our Audi models.

Article source: www.audi.com

What is a premium experience like in a self-driving car? Audi is researching this in collaboration with the Fraunhofer Institute for Industrial Engineering IAO. In the futuristic driving simulator, the experts on human-machine interaction investigated, for example, how the car interior can become a perfect workplace. The findings help the car maker to provide every user with a personally optimized automobile interior in the future. This research cooperation is part of the Audi project “25th Hour.”

“When cars no longer have a steering wheel, premium mobility can be newly defined. In future, people traveling from A to B will be able to surf the Internet at leisure, play with their children – or do concentrated work,” says Melanie Goldmann, head of Culture and Trends Communication at Audi. “Together with the experts from the Fraunhofer Institute, we want to find out what is important for making optimal use of time in a self-driving car.”

For the laboratory experiment at the Fraunhofer Institute in Stuttgart, Audi has specially built a driving simulator that reproduces the situation of automated driving: with a variable interior and without a steering wheel. Large-scale projections convey the impression of a city drive by night. Via displays, the researchers can introduce digital distractions, the windows can be dimmed, and the color of the lighting and noise background change.

The focus was on young test persons, so-called millennials, who were born after 1980 and are regarded as receptive to self-driving cars. In the experiment, the 30 test persons carried out various tasks requiring concentration – comparable with a work situation in a self-driving car.

As they did this, their brain activity was measured (EEG), as well as reaction times and error quotas, and subjective impressions were noted. The results of the EEG were unambiguous: in an environment without disturbances, the human brain is more relaxed. The windows were dimmed, the light settings optimized, and digital messages were suppressed. Tasks were then solved better and more quickly. The test persons also stated that they were less distracted.

By contrast, a driving situation that was “close to reality” in the robot car made greater demands on the brain: in this case, the participants saw some advertising, received information from social networks, and did not benefit from pleasant lighting settings or dimmed windows.

“The results show that the task is to find the right balance. In a digital future, there are no limits to what can be imagined. We could offer everything in the car – really overwhelm the user with information,” says Goldmann. “But we want to put people at the center of attention. The car should become a smart membrane. The right information should reach the user at the right time.”

The “25th Hour” project
Today drivers spend an average of about 50 minutes per day at the wheel. In the 25th Hour project, Audi is investigating how this time could be used better in a self-driving automobile. The project is based on the assumption that an intelligent human-machine interface will learn the user’s individual preferences and adapt flexibly. In this way, Audi customers will gain full control of their time – they will be masterful time managers.

In a first step, the project team looked at people in Hamburg, San Francisco, and Tokyo, focusing on two aspects. How is infotainment used in the car today? And what would people like to do with their free time in the car of the future? The results were then discussed with a variety of experts, including psychologists, anthropologists, and urban and mobility planners.

In a second step, the Audi team defined three time modes that are conceivable in a self-driving car: quality time, productive time, and time for regeneration. In so-called quality time, people spend their time, for example, in activities with their children or telephoning family and friends. In productive time, they usually work. In down time they relax by reading, surfing the Internet, or watching a film.

To research these time modes further, Audi recruited the help of scientists from the Fraunhofer Institute. In the current research series, the team is principally concentrating on productive time.

Article source: www.audi.com

Even more distinctive, sportier and faster: The new Audi Sport Performance Parts take dynamic handling to a wholly new level for the Audi R8 (combined fuel consumption in l/100 km: 12.3 – 11.4*; combined CO2 emissions in g/km: 287 – 272*) sports car and the Audi TT. The retrofit range will be available in dealers in late summer 2017 and features numerous components.

“With the Audi Sport Performance Parts we are tapping into a new business segment,” says Stephan Winkelmann, Managing Director of Audi Sport GmbH. “Our wealth of experience garnered over many years of building sports cars is incorporated into every component we offer. Along with our expertise from motor racing, which is still the best test bed for volume production.”

As part of the sales launch of the retrofit range in late summer 2017, the product lineup will initially be available in Germany and other markets for the current Audi R8 and Audi TT models (TT, TTS [combined fuel consumption in l/100 km: 7.5 – 6.7*; combined CO2 emissions in g/km: 173 – 155] and TT RS [combined fuel consumption in l/100 km: 8.5 – 8.2*; combined CO2 emissions in g/km: 194 – 187*]) only. Additional model series will follow gradually. The Audi Sport Performance Parts cover four areas to date: suspension, exhaust system, exterior and interior.

For suspension requirements, the range covers sport brake linings, which are more powerful and less prone to fading than standard brake linings. Linings are available for steel discs and for the optional ceramic brakes. Their carrying plates are painted in fluorescent red and are made out of ultralight titanium on the Audi R8, making this model a kilogram (2.2 lb)lighter overall.

Steel front brake discs with multiple bolt mountings are available for the Audi TT RS. Various brake cooling kits can be obtained for the Audi TT, TTS and TT RS. They help the compact athlete achieve even better braking performance.

A two- or three-way coilover suspension is available for the Audi TT models and both Audi R8 variants. The fully milled, black 20-inch wheels – for all R8 and TT models too – are also taken straight from motor racing. They reduce weight by up to 7.2 kilograms (15.9 lb) on the Audi TT and up to 8 kilograms (17.6 lb) on the Audi R8. The associated sport tires come in the sizes 245/30 R20 (R8, front) and 305/30 R20 (R8, rear); 255/30 R20 tires are fitted all round on the Audi TT. For the TT coupés with quattro drive, the retrofit range includes a cross-member reinforcement bar on the rear axle. It improves rigidity and makes handling even more precise. Audi TT RS owners can also subsequently increase their car’s top speed to 280 km/h (174.0 mph).

The specialist supplier of exhaust systems, Akrapovic d.d., has designed a sonorous, ultralight muffler made of titanium including trims specifically for the Audi TTS and the Audi TT RS.

The most spectacular offers in the Audi Sport Performance Parts are the Aero kits, which were developed in the Audi wind tunnel. For the Audi R8 and the Audi TT they add clear-cut highlights on the front air inlets, the side sills and the diffuser. They also substantially improve downforce: On the Audi R8 the downforce is 250 kg (551.2 lb) at 330 km/h (205.1 mph), an increase of over 100 kg (220.5 lb). The effect at 150 km/h (93.2 mph) is even more pronounced – the downforce is doubled at this speed to 52 kg (114.6 lb) thanks to the Aero kit. There is also a splitter and flics at the front as well as a large fixed rear wing. An engine hood with large air vent is also available for the Audi TT. All parts are made out of carbon fiber-reinforced polymer (CFRP) for the Audi R8 and for the Audi TT out of CFRP and plastic; all of them feature the Audi Sport logo.

Attractive parts for the interior round off the range. A sport contour steering wheel with multifunction plus is available for the Audi R8 and for the Audi TT; its Alcantara-trimmed rim features a red 12 o’clock marking. CFRP shift paddles are available for the models fitted with seven-speed S tronic. Audi Sport has developed a strut cross brace specifically for the TT – also made out of CFRP. It replaces the rear seats, reduces the weight by some 20 kilograms (44.1 lb) and enhances the torsional rigidity. The brace improves handling particularly when cornering at speed.

Article source: www.audi.com

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