Special Porsche 911 begins its journey of exploration

A unique pair of experimental 911 sports cars climbed the sheer slopes of Ojos del Salado, Chile, the highest volcano in the world.

For approaching 60 years, the Porsche 911 has been pushed to extremes on both the track and on the open road. Now, a fresh chapter is being written; a unique pair of experimental 911 sports cars are being tested where there are no roads, where the air is thin, where the temperature is far below freezing and even plant life can’t survive.

A team, led by endurance racer and adventurer Romain Dumas, has set out to explore the limits of the 911 and have opted for one of the toughest places on earth in which to begin the adventure – on the sheer slopes of Ojos del Salado, Chile, the highest volcano in the world.

The first test of the team and the cars has taken place. And, as a consequence, a Porsche 911 became one of very few vehicles of any kind to have ever reached such an extreme altitude. Exploring up to 6,007 meters (19,708 feet), the 911, with Romain Dumas at the wheel, took on bolder strewn gradients as well as ice fields that tested the abilities of both the car and the team in temperatures hovering 30 degrees Celsius below freezing and with half the available oxygen in the air compared to at sea level. Impassable walls of seasonal snow and ice high up near the summit provided the upper limits of the test, which provided a tantalizing glimpse of what the cars are capable of in the right conditions. For now though, the test is complete – and the team elated by the experience.

“This was a truly memorable and special moment in a place that’s both beautiful and brutal at the same time – I guess the only machines anywhere in the world higher than us today were aircraft! For the team and the car it was about learning – and right out of the box, the car was tough and nimble. We were hard on ourselves and really put it in the deep end for its first test, yet it felt at home,” said Romain Dumas, driver of the 911 and leader of the team. “We have enormous respect for those who have gone higher. No one has seen so much ice and snow up towards the top of the volcano, but despite this we went over 6,000 meters up, to the point where the walls of ice and snow meant we could go no further. We’re really proud of what the car and the team are capable of first time out – hopefully we can count on many more adventures in the future.”

Romain Dumas, Special 911 Carrera 4S, High Altitude Project, Ojos del Salado, Chile, 2022, Porsche AG
Romain Dumas

Dr. Frank-Steffen Walliser, Vice-President, Complete Vehicle Architecture and Characteristics at Porsche AG, commissioned his chief engineer for the Porsche 911, Michael Rösler, with the project. “It’s been magical to build a 911 like the world has never seen before – made possible by a small team of engineering enthusiasts. The 911 has already been proven on the track and, of course, on the road. With this project, we‘re shifting the focus to where there are no roads“, said Rösler, Director complete vehicle 911 Model line. “Testing our theories means finding the harshest possible environments to see if they work – and on the highest volcano in the world, we succeeded.”

At the core of each car is the 911 (Type 992) Carrera 4S equipped with a factory standard turbocharged flat-six engine (911 Carrera 4S: consommation de carburant en cycle mixte (WLTP) 11,1 – 10,2 l/100 km, émissions de CO₂ en cycle mixte (WLTP) 253 – 231 g/km) developing 443 hp under standard conditions and the original seven-speed manual transmission. The 911 itself proved to be an excellent basis, through the mix of robust yet lightweight chassis construction, short wheelbase, ample power and the ability to cope well with extremely high altitudes. From this starting point, the engineers at Porsche’s research and development base in Weissach, near Stuttgart, working closely with Romain Dumas Motorsport, then let their combined creativity run wild as they worked to prepare it for the specific demands of the mountain.

Special equipment for the 911

The two cars were first equipped with roll cages, carbon fiber seats and harnesses to meet the safety requirements such a project demands. Next, portal axles were added to increase ground clearance (now 350 mm). New, lower gear ratios allow for precise, gentle throttle inputs at low speed and work well with large, newly fitted off-road tires. In addition, the cars are equipped with special lightweight, but extremely tough, Aramid fiber underbody protection to allow sliding over rocks.

A device called the Porsche Warp-Connecter was added. Originally designed for motorsport applications, it forms a mechanical link between all four wheels to allow constant wheel load even when the chassis is enduring extreme articulation – contributing to maximum traction. Manual, switchable differential locks were used along with an advanced steer-by-wire system. Finally a winch was added at the front of the car along with revised bodywork to allow clearance for the 310 mm wide off-road wheels and tires. The cooling system also needed to move upward to allow the car to tackle more extreme off-road sections without fear of damage. As a finishing touch, the bodywork was finished in two distinctive liveries – one featuring the same Porsche Motorsport color scheme adorning the 963 LMDh racer and a second 911-themed livery designed by the styling team in Weissach.

“Over 30 years ago, a team of Porsche engineers fitted four wheel drive to a 911 to explore ‘what if?’ – and I’m proud that this natural curiosity and drive amongst engineers to explore the limits, to test new ideas and above all to inspire, is alive and well,” said Walliser. “Projects like this one are vital to who we are at Porsche. As they began their journey, the team literally aimed sky high. The first of what I hope will be many adventures.”

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Consommation et émissions

911 Carrera 4S

WLTP*
  • 11,1 – 10,2 l/100 km
  • 253 – 231 g/km

911 Carrera 4S

Consommation de combustible / Émissions
consommation de carburant en cycle mixte (WLTP) 11,1 – 10,2 l/100 km
émissions de CO₂ en cycle mixte (WLTP) 253 – 231 g/km
Classe d'efficacité: G

911 GT3 RS

WLTP*
  • 13,2 l/100 km
  • 299 g/km

911 GT3 RS

Consommation de combustible / Émissions
consommation de carburant en cycle mixte (WLTP) 13,2 l/100 km
émissions de CO₂ en cycle mixte (WLTP) 299 g/km
Classe d'efficacité: G

Taycan (2024)

WLTP*
  • 0 g/km
  • 19,7 – 16,7 kWh/100 km
  • 503 – 590 km

Taycan (2024)

Consommation de combustible / Émissions
émissions de CO₂ en cycle mixte (WLTP) 0 g/km
consommation électrique en cycle mixte (WLTP) 19,7 – 16,7 kWh/100 km
Autonomie électrique combinée (WLTP) 503 – 590 km
Autonomie électrique en zone urbaine (WLTP) 569 – 662 km
Classe d'efficacité: B

Taycan 4 Cross Turismo (2024)

WLTP*
  • 0 g/km
  • 22,0 – 18,7 kWh/100 km
  • 517 – 613 km

Taycan 4 Cross Turismo (2024)

Consommation de combustible / Émissions
émissions de CO₂ en cycle mixte (WLTP) 0 g/km
consommation électrique en cycle mixte (WLTP) 22,0 – 18,7 kWh/100 km
Autonomie électrique combinée (WLTP) 517 – 613 km
Autonomie électrique en zone urbaine (WLTP) 588 – 693 km
Classe d'efficacité: B

Taycan 4S Cross Turismo (2024)

WLTP*
  • 0 g/km
  • 22,0 – 18,8 kWh/100 km
  • 517 – 610 km

Taycan 4S Cross Turismo (2024)

Consommation de combustible / Émissions
émissions de CO₂ en cycle mixte (WLTP) 0 g/km
consommation électrique en cycle mixte (WLTP) 22,0 – 18,8 kWh/100 km
Autonomie électrique combinée (WLTP) 517 – 610 km
Autonomie électrique en zone urbaine (WLTP) 588 – 690 km
Classe d'efficacité: B