POWERFUL AND EFFICIENT.

The engines in the BMW X5.

Irrespective of which engine you opt for in the BMW X5, you can be sure of maximum driving pleasure, combined with the utmost efficiency.

BMW TWINPOWER TURBO PETROL ENGINES.

The BMW xDrive50i with V8 engine offers power and sophistication. The optimised petrol engines for the BMW X5 combine maximum driving pleasure with outstanding fuel economy.


At the top of the range is the BMW TwinPower Turbo eight-cylinder petrol engine with two parallel turbochargers with Valvetronic, double-Vanos and High Precision Injection. It delivers maximum torque of 650 Nm across a rev range from 2000 to 4500 rpm. The engine produces 330 kW to achieve impressive acceleration from 0 to 100 km/h in just 4.9 seconds. Thanks to High Precision Injection (HPI), maximum efficiency is extracted due to precisely-measured doses of fuel being injected into the combustion chamber, which results in fuel consumption of 9.6 l/100 km and CO₂ emissions of 224 g/km.

* The figures for the BMW xDrive35i are provisional values and have yet to be confirmed.

  • BMW xDrive50i*
    BMW xDrive50i

    CO2 emissions in g/km

    224

    Combined consumption in l/100 km

    9.6

    Cylinders/valves

    V90 8/4

    Capacity in cc

    4395

    Stroke/Bore (mm)

    88.3 /89.0

    Rated Power/Rated Engine Speed (kW/rpm)

    330 /5500 - 6000

    Max Torque/Engine Speed (Nm/rpm)

    650 /2000 - 4500

    Compression ratio : 1

    10.0

    Vehicle only available with automatic gearbox.

      

*The published fuel consumption and CO2 emission figures are established according to legislated technical specifications (UNECE Regulation 101/UN Regulation 83 and SANS 20101 standards), which sets out the procedures that are used to measure the CO2 emissions and fuel consumption. The claimed figures are established using specific tests under standardised, carefully controlled conditions and may differ from consumption achieved under real world conditions with the influences of altitude, road surface, geographic conditions, vehicle options, temperature, humidity, tyres size and driving behaviour amongst others.

BMW TWINPOWER TURBO DIESEL ENGINES.

The BMW diesel engines are even more powerful, even quicker off the mark and even more efficient in the xDrive40d and xDrive30d.
The diesel engine in the BMW xDrive40d* impresses with BMW TwinPower Turbo technology as well as 230 kW and maximum torque of 630 Nm. Thanks to the variable nozzle turbocharger, a BMW innovation, the BMW xDrive40d delivers exceptional levels of performance. From 0 to 100 km/h in just 5.9 seconds and a top speed of 236 km/h. Combined with common rail direct injection, this results in impressively low consumption values of 6.0 l/100 km with CO₂ emissions of only 157 g/km.

The dynamic straight six-cylinder engine in the BMW xDrive30d produces an impressive 190 kW to accelerate from 0 to 100 km/h in just 6.8 seconds. Top torque of up to 560 Nm powers the engine at maximum efficiency: the BMW xDrive30d requires just 5.9 litres of diesel per 100 kilometres, with CO₂ emissions of 156 g/km.

* The figures for the BMW xDrive40d are provisional values and have yet to be confirmed

  • BMW xDrive30d*
    BMW xDrive30d

    CO2 emissions in g/km

    156

    Combined consumption in l/100 km

    5.9

    Cylinders/valves

    In Line /6/4

    Capacity in cc

    2993

    Stroke/Bore (mm)

    90.0/84.0

    Rated Power/Rated Engine Speed (kW/rpm)

    190 /4000

    Max Torque/Engine Speed (Nm/rpm)

    560 /1500 - 3000

    Compression ratio : 1

    16.5

    Vehicle only available with automatic gearbox.

      

*The published fuel consumption and CO2 emission figures are established according to legislated technical specifications (UNECE Regulation 101/UN Regulation 83 and SANS 20101 standards), which sets out the procedures that are used to measure the CO2 emissions and fuel consumption. The claimed figures are established using specific tests under standardised, carefully controlled conditions and may differ from consumption achieved under real world conditions with the influences of altitude, road surface, geographic conditions, vehicle options, temperature, humidity, tyres size and driving behaviour amongst others.