Stuttgart. Porsche puts its faith in the brand-new 911 RSR
(2019 model year) to defend the FIA World Endurance Championship (WEC) title.
The race car complying with the FIA GTE regulations is a completely new
development. The vehicle from Weissach has undergone improvements in all areas
and will replace the successful 911 RSR with which Porsche won the
manufacturers’ and drivers’ world championship in the FIA WEC as well as the Le
Mans endurance classic (France) and the IMSA races at Sebring and Road Atlanta
(Petit Le Mans) amongst other events in 2019.
In developing the new Porsche 911 RSR, substantial insights were garnered and
adopted from the extremely successful race outings of its predecessor. “Since
2017 the 911 RSR has yielded us more than 20 class wins in the world
championship as well as at long-distance series in North America and Europe.
Our job in the development was to make a very good car even better. The
engineers at Weissach have perfectly implemented this in every aspect,” says
Fritz Enzinger, Vice President Porsche Motorsport.
“We never rest on our laurels,” explains Pascal Zurlinden, Director GT Factory
Motorsport. “We’ve extensively analysed all factory and customer campaigns with
the Porsche 911 RSR. Our engineers noticed room for improvement in a number of
areas. We have made significant progress in the development of our car for the
next three-year homologation period, especially in the complex areas of
driveability, efficiency, durability and serviceability. Ninety-five percent of
the car is new. The only components that we’ve kept unchanged from the
predecessor are the headlights, brake system, clutch, driver’s seat and parts
of the suspension. Tests so far have run excellently. We’re already looking
forward to the first races of the 2019/2020 FIA WEC season.”
New flat engine with
larger displacement
In terms of the drivetrain, Porsche remains faithful to its chosen path. The
latest nine-eleven is also powered by a six-cylinder naturally aspirated
engine. The highly efficient boxer unit positioned in front of the rear axle
has a capacity of 4,194 cc and – depending on the size of the restrictor –
produces around 515 hp. The new power unit is the largest ever boxer engine to
be mounted in a Porsche 911 ex-works, and offers even better driveability over
a wider rev-band compared to the predecessor’s proven four-litre aggregate.
Power is delivered to the rear wheels via a weight-optimised, more rigid
sequential six-speed constant-mesh gearbox. The new powertrain in the Porsche
911 RSR ensures faster gear-shift times and increased efficiency. The two
exhaust pipes now exit on each side in front of the rear wheels. The new
exhaust gas ducting saves weight and is aerodynamically advantageous.
With the repositioning of the tailpipes, space has been made for an optimised
diffuser. The distinctive component at the rear of the Porsche 911 RSR now
generates even more downforce. Thanks to the optimisation of airflow at the
front and the sides of the Weissach racer, aerodynamic efficiency and stability
have increased significantly, thereby further improving the use and durability
of the tyres during racing.
Focus on the work of
drivers and mechanics
Driveability and serviceability are critical factors in long-distance racing.
For this reason, Porsche placed particular emphasis on these aspects when
developing the new 911 RSR. The cockpit has been reworked with the focus on
better usability. In this regard, extensive feedback from the Porsche drivers
proved invaluable. Like with the predecessor, the body made of carbon-fibre
reinforced plastic can be swapped out quickly and thus ensures efficient pit
processes in long-distance racing.
To give drivers added protection, the active and passive safety elements in the
Porsche 911 RSR have been overhauled. The proven collision warning system
allows drivers an even better overview to detect approaching prototype vehicles
early enough. The optimised roll cage, the FIA side impact panel in the door and
cage as well as additional impact protection for the legs improve the passive
safety in the event of an accident. Other features include the removable roof
hatch and the rigidly-mounted racing seat featuring a six-point safety harness
for the driver.
First race outing in
September 2019
“We’ve been working on the concept of the new Porsche 911 RSR since 2017. The
first designs were created using CAD software. In August 2018, the best racing
nine-eleven to date completed its first kilometres on the factory’s own test
track in Weissach,” says Pascal Zurlinden, describing the important milestones
in the car’s development. Over the following months, the factory team conducted
numerous tests. Seasoned Porsche works drivers took turns at the wheel of the
new 911 RSR. Parallel to this, the aerodynamics were fine-tuned in the Porsche
wind tunnel. “Another milestone was our long-run in March 2019 at Le Castellet,
where we included the works teams from both the WEC and IMSA. We covered more
than 6,000 kilometres over 30 hours without any technical hiccups. The drivers
and engineers were very satisfied. The car received its racing homologation on
1st July,” added Zurlinden.
World premiere at Goodwood
The most spectacular 911 of all time makes its world premiere on 6 July at the
Goodwood Festival of Speed (Great Britain). The Porsche 911 RSR will also
celebrate its race debut on the British Isles – at the season-opening round of
the FIA World Endurance Championship (WEC) at Silverstone on 1 September. Prior
to this, the vehicle of the current manufacturers’ world champions will face
rival manufacturers contesting the FIA WEC GTE-Pro class for the first time at
a two-day prologue in Barcelona (Spain) on 23/24 July. The Porsche GT Team will
field two works cars at eight rounds of the 2019/2020 season with drivers
Michael Christensen (Denmark) and Kévin Estre (France) as well as Gianmaria
Bruni (Italy) and Richard Lietz (Austria). In the IMSA WeatherTech SportsCar
Championship, the switch to the latest model will take place in the 2020
season. In North America, an additional two factory-run Porsche 911 RSR will
fight for the GTLM category title against competing manufacturers. For customer
teams, the vehicle will be available from the 2020/2021 FIA WEC season.
For the first time, the factory race cars from Weissach will be decked out in
two different designs: The typical Porsche white will continue to be the
dominating colour on the No. 91 car. Added accents include a centrally-placed
red stripe extending from the front hood over the roof to the rear apron, as
well as red side sills. Grey highlights on the side complement the clear and
dynamic design. On the No. 92 car, the white and grey colours are reversed. The
rear wing and the wing mirrors are black instead of white so that fans can
differentiate between the two.
A Video News will follow shortly.
Technical data Porsche 911
RSR model year 2019
Concept
• Single-seater race car for the FIA GTE category (USA: GTLM)
Weight/dimensions
• Base weight: ca. 1,245 kg
• Length: 4,593 mm (without splitter, rear wing, diffuser)
• Width: 2,042 mm (front axle) / 2,050 mm (rear axle)
• Wheelbase: 2,513 mm
Engine
• Water-cooled six-cylinder boxer, positions in front of the rear axle;
capacity 4,194 cc, stroke 81.5 mm, bore 104.5 mm; ca. 378 kW (515 hp) depending
of restrictor; 4-valve technology; direct fuel injection; dry sump lubrication;
single mass flywheel; power output limitation via restrictor; electronic
throttle; side-exit exhaust system.
Transmission
• Weight-optimised six-speed sequential constant-mesh gearbox; two-shaft
longitudinal layout with bevel gear; shifting via electronic shift actuator;
shift paddles on the steering wheel; magnesium gearbox casing; multi-disc
self-locking differential with visco unit; three disc carbon race clutch.
Body
• Weight-optimised bodyshell in aluminium-steel composite design; removable
roof hatch; FT3 fuel cell in front of the car; welded-in roll cage; seat
pursuant to FIA 8862-2009; rigidly mounted to the chassis; six-point safety
harness for use with HANS®; longitudinally adjustable pedalry;
aerodynamically-optimised and quick-release body components made of CFRP; rear
wing with “swan neck” mounts; four-post air jack system with safety pressure
valve; electronically activated fire extinguisher system; heated windscreen.
Suspension
Front axle:
• Double wishbone front axle; four-way vibration damper; with coil spring
setup; anti-roll bars, adjustable by blade position; electro-hydraulic power
steering.
Rear axle:
• Integrated rear-axle subframe with double wishbone axle; four-way vibration
damper; with coil spring setup; anti-roll bars, adjustable by blade positions;
electro-hydraulic power steering; tripod drive shafts.
Brakes
• Two independent brake circuits for front and rear axle, adjustable via
balance bar.
Front axle:
• One piece aluminium six-piston racing callipers with quick release coupling;
internally ventilated steel brake discs, 390 mm diameter; race brake pads;
optimised brake cooling ducts.
Rear axle:
• One piece aluminium four-piston racing callipers with quick release coupling;
internally ventilated steel brake discs, 355 mm diameter; race brake pads;
optimised brake cooling ducts.
Wheels / Tyres
Front axle:
• One piece forged light alloy wheels, 12.5Jx18 offset 25 with centre lock nut
and wheel nuts; Michelin slick 30/68-18.
Rear axle:
• One piece forged light alloy wheels, 13Jx18 offset 37 with centre lock nut
and wheel nuts; Michelin slick 31/71-18.
Electrics
• Cosworth Central Logger Unit; CFRP multi-functional steering wheel with
integrated display; shift paddles and quick release; Collision Avoidance
System; controlled alternator in connection with LiFePo4 battery; LED
headlights; LED taillights plus rain light; illuminated car number and leader
light system; black light inside cockpit; electric adjustable wing mirrors with
memory function; tyre pressure monitoring system (TPMS); drink system; air
conditioning system; membrane switch panel on centre console with fluorescent
labelling.