Mercedes-Benz OM642 engine

The Mercedes-Benz OM642 engine is a, 24-valve, aluminium/aluminium block and heads diesel 72° V6 engine manufactured by the Mercedes-Benz division of Daimler AG as a replacement for the Mercedes straight-5 and straight-6 cylinder engines.
By 2010 a BlueTEC version of the Mercedes Sprinter OM642 was released. The BlueTEC systems allowed the elimination of much of the EGR in that vehicle's engine, which as a result gave compared to the non-BlueTec engine's.
The engine features common rail Direct injection and a variable nozzle turbocharger. The injection system operates at, while the compression ratio is 18.0:1. The engine features a counter-rotating balance shaft mounted between the cylinder banks to cancel the vibrations inherent to the 72 degree V6 design, and the crankpins are offset by 48 degrees to achieve even 120 degree firing intervals. In some heavy vehicle applications, Mercedes' BlueTec AdBlue urea injection is utilised for NOx reduction. In lighter vehicle applications, a NOx storage catalyst captures nitrous oxides, which are periodically purged by running the engine slightly rich. A particulate filter lowers soot, making this engine ULEV certified. Engine mass is. Power output is and of torque. For the 2007 model year, torque is raised to.
At the beginning of summer 2017 the engine, together with Mercedes-Benz OM651 was under investigation by the Federal Motor Transport Authority in respect of the alleged emissions cheating scandal wherein the laboratory emissions testing produced a different amount of diesel exhaust fluid usage and lower emissions than in real world operating scenarios.

Implementation

Vehicles using this engine include:

Dodge / Freightliner Trucks / Mercedes-Benz Sprinter
Jeep Grand Cherokee WK/WH ¹, 2007–2008
Jeep Commander XK/XH
Mercedes-Benz C320 CDI
Mercedes-Benz E280/E300/E320 CDI/BlueTEC
Mercedes-Benz C320/C350 CDI
Mercedes-Benz CLK320 CDI
Mercedes-Benz E350 CDI/BlueTEC
Mercedes-Benz E 350d
Mercedes-Benz GLK 350 CDI
Mercedes-Benz R280/R300/R320/R350 CDI/BlueTEC
Mercedes-Benz ML280/ML300/ML320/ML350 CDI/BlueTEC
Mercedes-Benz ML350 BlueTEC/GLE 350d
Mercedes-Benz G280 CDI Worker/G280 CDI Edition 30 PUR/G280/G300 CDI Professional
Mercedes-Benz G320 CDI/G350 CDI/BlueTEC
Mercedes-Benz GL320/350 CDI/BlueTEC
Mercedes-Benz GL350 BlueTEC/GLS 350d
Mercedes-Benz GLC 350d
Mercedes-Benz S320/350 CDI/BlueTEC
Mercedes-Benz S350 BlueTEC/S 350d
Mercedes-Benz CLS320/350 CDI
Mercedes-Benz Vito 120/122 CDI/Viano 3.0 CDI
Chrysler 300C
Mercedes-Benz X350d

¹ Europe, [the Middle East and Africa|EMEA] market
² North American [Free Trade Agreement|NAFTA] market

Intake System

Air is drawn into the engine through two air filters located above each cylinder head. The amount of the air is measured by two hot film mass air flow sensors B2/6&7. On Sprinter models, a single air filter housing is mounted upon brackets on top of the engine.
The variable geometry turbine is actuated via a linkage connecting the controller to vanes inside the turbine housing. With the VGT vanes in a closed position, the exhaust gases are accelerated into the turbine wheel blades increasing shaft speed thereby increasing boost. With the vanes in the open position the exhaust gases are decelerated causing a drop in the shaft speed and consequent drop in boost.