IN THE BUSINESS OF BEING EFFICIENT AND DYNAMIC.

The BMW TwinPower Turbo engines of the BMW 5 Series Sedan.

Whether petrol or diesel, all engines for the BMW 5 Series Sedan boast impressive performance, dynamic power developments and high torque. At the same time, intelligent measures from BMW EfficientDynamics and the unique BMW TwinPower Turbo technology guarantee the highest possible efficiency. They also ensure maximum performance with lower fuel consumption and emissions.

BMW TWINPOWER TURBO PETROL ENGINES.

The latest generation BMW TwinPower Turbo petrol engines feature remarkably agile power delivery and excellent responsiveness, even at low engine speeds. At the same time they are more efficient, with fewer emissions and better performance than their predecessors. These innovative engines combine the latest fuel injection technology and fully variable valve control including Double-VANOS with state-of-the-art turbocharger technology and represents a milestone in the BMW EfficientDynamics development strategy. The result is a particularly efficient drive train, which emphasises the renowned BMW engine prowess. The BMW TwinPower Turbo inline 6-cylinder petrol engine has been honoured multiple times with the Engine of the Year Award, bolstering its worldwide reputation for dynamic power delivery, extremely smooth running characteristics and impressive efficiency. The engines from the BMW EfficientDynamics range feature a technology concept that has been proven highly successful and is implemented in nearly all petrol engines.

  • BMW 550i*
    BMW 550i

    CO2 emissions in g/km

    199

    Combined consumption in l/100 km

    8.6

    Cylinders/valves

    V8/4

    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

  • BMW 535i*
    BMW 535i

    CO2 emissions in g/km

    169

    Combined consumption in l/100 km

    7.6

    Cylinders/valves

    In Line 6/4

    Capacity in cc

    2979

    Stroke/Bore (mm)

    89.6/84.0

    Rated Power/Rated Engine Speed (kW/rpm)

    225/ 5800

    Max Torque/Engine Speed (Nm/rpm)

    400 /1200 - 5000

    Compression ratio : 1

    10.2

  • BMW 528i*
    BMW 528i

    CO2 emissions in g/km

    142

    Combined consumption in l/100 km

    6.5

    Cylinders/valves

    4/4

    Capacity in cc

    1997

    Stroke/Bore (mm)

    90.1/84.0

    Rated Power/ Rated Engine Speed (kW/rpm)

    180 /5000 - 6000

    Max Torque/Engine Speed (Nm/rpm)

    350 /1250 - 4800

    Compression ratio : 1

    10.0

  • BMW 520i*
    BMW 520i

    CO2 emissions in g/km

    139

    Combined consumption in l/100 km

    6.4

    Cylinders/valves

    In Line 4/4

    Capacity in cc

    1997

    Stroke/Bore (mm)

    90.1/84.0

    Rated Power/Rated Engine Speed (kW/rpm)

    135 /5000 - 6250

    Max Torque/Engine Speed (Nm/rpm)

    270 /1250 - 4500

    Compression ratio : 1

    11.0

*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 new generation of BMW TwinPower Turbo diesel engines is a testament to the rigorous application of the BMW EfficientDynamics philosophy, combining top marks in power generation and performance with low fuel consumption. The diesel engines are notable for their excellent responsiveness and agile power delivery at all engine speeds, as well as for their low fuel consumption. They are renowned for their outstanding efficiency and dynamics, producing very few emissions and friction in order to guarantee maximum driving pleasure. The new diesel engines in the BMW EfficientDynamics range feature lightweight aluminium construction and one, two or three turbochargers with variable turbine geometry. They also come with the very latest CommonRail direct injection, which guarantees optimum combustion to further reduce fuel consumption and CO2 emissions.

  • BMW 535d*
    BMW 535d

    CO2 emissions in g/km

    138

    Combined consumption in l/100 km

    5.4

    Cylinders/valves

    In Line 6/4

    Capacity in cc

    2993

    Stroke/Bore (mm)

    90.0/84.0

    Rated Power/Rated Engine Speed (kW/rpm)

    230 /4400

    Max Torque/Engine Speed (Nm/rpm)

    630 /1500 - 2500

    Compression ratio : 1

    16.5

  • BMW 530d*
    BMW 530d

    CO2 emissions in g/km

    134

    Combined consumption in l/100 km

    5.3

    Cylinders/valves

    In Line 6/4

    Cylinder capacity in cu. M

    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

  • BMW 520d*
    BMW 520d

    CO2 emissions in g/km

    119

    Combined consumption in l/100 km

    4.7

    Cylinders/valves

    4/4

    Capacity in cc

    1995

    Stroke/Bore (mm)

    90.0/84.0

    Rated Power/Rated Engine Speed (kW/rpm)

    135 /4000

    Max Torque/Engine Speed (Nm/rpm)

    380 /1750 - 2750

    Compression ratio : 1

    16.5

*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.