. This Friday morning Timo Bernhard (D) lapped the 20.832 kilometre (12.94 miles) Nürburgring Nordschleife race circuit in 5 minutes and 19.55 seconds. This results in an average speed of 233.8 km/h (145.3 mph) on what is revered by race drivers, engineers and enthusiasts alike as the world’s most difficult track. Driving the
For 35 years and 31 days Bellof’s 6:11.13 minutes record remained uncontested. The German driver from Gießen, who tragically died at Spa-Francorchamps in 1985, counted as the biggest racing talent of his time. He drove his record on May 28 in 1983 at the wheel of a powerful 620 bhp Rothmans
Proud and relieved Timo Bernhard, five-time overall winner of the Nürburgring 24-hours, two-time outright winner of the Le Mans 24-hours and reigning World Endurance Champion with the
Today’s success is the second track record on the
The Evo version of the
LMP Team Principal Andreas Seidl commented: “As a race team we constantly search for challenges that push a car, driver and team to operate on the limit. Conquering the “Green Hell” definitely provided such a challenge. Since last winter we were preparing for that task together with our tyre partner Michelin – painstakingly and with a great deal of respect for this track. Today we have shown the full potential of the 919 Evo. Congratulations to Timo for his sensational drive. Being a record winner at the Nürburgring, Timo was the logical choice for the job. Balancing attack and caution at all times was mandatory on this circuit. Safety is the highest priority. In this regard, I also like to thank the Nürburgring team.
Fritz Enzinger, Vice President LMP1, added: “A big thank you goes to our development team in Weissach and the crew on site for the focused and safe operation of this record attempt. It is terrific what our team has achieved in four years in the World Endurance Championship: From 2015 to 2017 three overall wins in Le Mans and three drivers’ and three manufacturers’ world championship titles. This isn’t easy to be reproduced by anyone. The Tribute Tour is our homage on these years. We didn’t want to see the most innovative race car of its time disappearing unceremoniously in to the museum. Thanks to the support from our partners, we were able to develop the Evo version of the
Unchained for the record
The technical regulations from the FIA for the WEC and Le Mans, introduced in 2014, successfully delivered close competition between the conceptually very different class 1 Le Mans hybrid prototypes entered by Audi,
To prepare the 919 Evo record car, the base was the 2017 world championship car. On top came developments that were prepared for the 2018 WEC but never raced after the withdrawal at the end of 2017. Additionally, several aerodynamic modifications were made.
The WEC efficiency regulations limited the energy from fuel per lap by using a fuel flow meter. The V4 combustion engine’s output back then was around 500 hp. Freed from these restrictions, equipped with an updated software but running the regular race fuel (E20, containing 20 per cent bio ethanol), the Evo version delivers 720 hp.
Because the amount of energy from the two recovery systems that could be used was limited as well in terms of electric megajoule per lap, the systems stayed far below their potential. With now full boost being available, the e-machine output increased by ten per cent from 400 to 440 hp.
The engineers also unchained the aerodynamics of the 919 Evo from the regulations. The new larger front diffuser now balances the new and very large rear wing, both of which have actively controlled drag reduction systems (DRS). The hydraulically operated systems trim the trailing edge of the front diffuser and opens up the slot between the rear wing main plane and the flap respectively in order to reduce drag. Underneath the Evo the turning vanes and floor have been optimised. Fixed height side skirts increase the aerodynamic performance again as efficiently as possible. In total the aero modifications resulted in 53 per cent higher downforce and an increase in efficiency by 66 per cent (compared to the 2017 Spa WEC qualifying).
To help further expand the performance envelope, the Evo gained a four-wheel brake-by-wire system to provide additional dynamic yaw control. Furthermore, the power steering was adapted for the higher loads and stronger suspension wishbones (front and rear) were designed.
Compared to the car in conventional race trim, the dry weight was reduced by 39 kilograms to 849 kilograms. To achieve this, air-conditioning, windscreen wiper, several sensors, electronic devices from race control, lights systems and the pneumatic jack system were removed. Michelin developed special tyre compounds for the 919 Evo that produces more downforce than a Formula One car.
The “919 Tribute Tour” continues
The attempt at the Nordschleife closes the chapter of chasing records with the
• July 6 and 7: VW Fun Cup Spa-Francorchamps (BE)
• July 12-15: Goodwood Festival of Speed (GB)
• September 2: Festival of
• September 26-29:
Composite material structure consisting of carbon fibre with an aluminium honeycomb core. The cockpit is closed.
V4 engine (90 degree cylinder bank angle), turbocharged, 4 valves per cylinder, DOHC, 1 Garrett turbocharger, direct petrol injection, fully load-bearing aluminium cylinder crankcase, dry sump lubrication Max. engine speed: ≈ 9,000/min
Engine management: Bosch MS5
Displacement: 2,000 cm3 (V4 engine)
Combustion engine: 720 hp, rear axle (> 500 PS)
MGU: 440 hp, front axle (< 400 PS)
KERS with a motor generator unit (MGU) mounted on the front axle; ERS for recuperation of energy from exhaust gases. Energy storage in a liquid-cooled lithium-ion battery with cells from A123 Systems
Rear wheel drive, traction control (ASR), temporary all-wheel drive at the front axle via the electric motor when boosted, hydraulically operated sequential 7-speed racing gearbox
Independent front and rear wheel suspension, push-rod layout with adjustable dampers and Pitch Link System with actively controlled lockout system (no actively controlled lockout system in the 919 WEC version)
4-wheel brake-by-wire system (front-rear brake-by-wire system), monoblock light alloy brake calipers, ventilated carbon fibre brake discs front and rear.
Variable control of wheel torques to optimize the car balance (variable control of torque distribution front to rear)
Wheels and tyres:
Forged magnesium wheel rims from BBS; Michelin Radial tyres, front and rear: 310/710-18
Weight: 849 kg (888 kg including driver ballast)
Length: 5,078 mm (4,650 mm)
Width: 1,900 mm
Height: 1,050 mm
Fuel tank capacity: 62.3 litres
Note: At https://presse.porsche.de text, image and video material on the 919 Tribute programme is freely accessible. The LMP1 twitter feed @
Further information and pictures for journalists and media representatives can be found on the
* Data determined in accordance with the measurement method required by law. Since September 01, 2017 certain new cars have been type approved in accordance with the Worldwide Harmonized Light Vehicles Test Procedure (WLTP), a more realistic test procedure to measure fuel consumption and CO2 emissions. From September 01, 2018 the WLTP will replace the New European Driving Cycle (NEDC). Due to the more realistic test conditions, the fuel consumption and CO2 emission values determined in accordance with the WLTP will, in many cases, be higher than those determined in accordance with the NEDC. This may lead to corresponding changes in vehicle taxation from September 01, 2018. You can find more information on the difference between WLTP and NEDC at www.porsche.com/wltp.
Currently, we are still obliged to provide the NEDC values, irrespective of the testing method used. The additional reporting of the WLTP values is voluntary until their obligatory use. As far as new cars, (which are type approved in accordance with the WLTP) are concerned, the NEDC values will therefore be derived from the WLTP values during the transition period. To the extent that NEDC values are given as ranges, these do not relate to a single, individual car and do not constitute part of the offer. They are intended solely as a means of comparing different types of vehicle. Extra features and accessories (attachments, tyre formats etc.) can change relevant vehicle parameters such as weight, rolling resistance and aerodynamics. Additionally, weather and traffic conditions, as well as individual handling, can affect the fuel consumption, electricity consumption, CO₂ emissions and performance values of a car.