Fuel consumption/emissions* 911: Urban in l/100 km 18.9-11.3; Extra urban in l/100 km 8.9-6.6; Combined in l/100 km 12.4-8.2; CO2 emissions in g/km 289-191.
The answer to both questions lies in the future or, to be more precise, in the future of the sports car. In the 911, the future is already here. The highly efficient, state-of-the-art engines make a considerable contribution to the comparatively low fuel consumption, but their sound is still unmistakably Porsche.
The 911 engines are also unmistakably sporty thanks to the SPORT button fitted as standard. At a single push, the engine becomes tuned for a sharper response and engine dynamics that are even more direct.
The 3.4-litre engine of the 911 Carrera models demonstrates, therefore, that performance and efficiency need not be mutually exclusive. Rather, the comparatively low engine capacity combined with a high maximum torque are the intelligent basis by which high power output can be achieved in an environmentally acceptable and sustainable way.
In their search for improved efficiency, our engineers analysed an extensive series of engine components. Answers were found, including rapid heating of the engine and gearbox to normal operating temperature after an engine start by the thermal management system, improved air induction and extremely effective direct fuel injection (DFI).
Weight is critical to efficiency. This is why the engines have a light-alloy construction, making them lightweight and yet structurally rigid. The result is comparatively low fuel consumption and a long service life.
The engine is the intelligent core of our identity. What else could the ‘Dr. Ing. ’ in our company name possibly stand for?
The 911 Carrera base models are equipped with a 3.4-litre boxer engine with direct fuel injection (DFI) and VarioCam Plus. It develops 257 kW (350 hp) at 7,400 rpm and the maximum torque is 390 Nm at 5,600 rpm.
For the 911 Carrera with 7-speed manual gearbox, this means acceleration from 0 to 62 mph in 4.8 seconds and a top speed of 179 mph. The 911 Carrera 4 accelerates to 62 mph in 4.9 seconds and has a top speed of 177 mph.
The 911 Carrera S models are powered by a 3.8-litre boxer engine with direct fuel injection (DFI) and VarioCam Plus. It produces 294 kW (400 hp) at 7,400 rpm and the maximum torque of 440 Nm is achieved at 5,600 rpm.
With optional Porsche Doppelkupplung (PDK), the 911 Carrera S accelerates from 0 to 62 mph in 4.3 seconds and achieves a top speed of 187 mph. The 911 Carrera 4S also completes the 0 to 62 mph sprint in 4.3 seconds and boasts a top speed of 184 mph.
The EMS SDI 9.1 engine management system ensures optimum engine performance at all times. It controls, for example, the position of the electronic throttle valve (ETC) – a prerequisite for compatibility with the Porsche Stability Management (PSM), which comes as standard. It also regulates all enginerelated functions to achieve optimum fuel consumption, emissions and power output whatever the driving style.
Another function is the cylinder-specific knock control. Since the cylinders never all work under exactly the same conditions, the knock control function monitors each one separately. The ignition point is shifted individually, as and when necessary, to protect the cylinders and pistons at high engine speeds.
For compliance with EU standards, the on-board diagnostics detect any faults and defects that may occur in the exhaust and fuel systems and then notify the driver immediately. This also prevents increased pollutant emissions and unnecessary fuel consumption.
© 2014 Dr. Ing. h.c. F. Porsche AG. Legal notice.
* These data were obtained using the Euro 5 measurement method (715/2007/EC and 692/2008/EC) in the NEDC (New European Driving Cycle) with standard equipment. The information does not refer to an individual vehicle and is not part of the offer, but is simply provided so that comparisons can be made between different types of vehicle. Further, up to date information on the individual vehicles can be obtained from your Porsche Centre.
Consumption figures were obtained on the basis of standard equipment. Special equipment may affect consumption and performance.