OFFICIAL PRESS RELEASE
Stuttgart, Germany, May 07, 2010
Mercedes-Benz sets benchmarks: Innovative technology makes V6 and V8 engines economical and fit for the future
- High output and exemplary environmental compatibility
- Third generation direct petrol injection
- Multi-spark ignition
- Optimised water pump and demand-controlled oil pump
- Optimised timing chain and innovative camshaft adjustment
Considerably less fuel consumption despite a much higher output was the result of the development work for the new Mercedes-Benz V-engine generation, which will initially be used as an 8-cylinder in the CL-Class and later the S-Class from autumn 2010. Mercedes-Benz developed the new six and eight-cylinder units because optimised internal combustion engines continue to have specific advantages over other drive systems with respect to operating range and refuelling time and costs, while offering the greatest short-term potential to achieve significant fuel savings in day-to-day operation. An internal combustion engine is also the centrepiece of a hybrid drive system, and of decisive importance for improved efficiency.
The new Mercedes-Benz engine family is uncompromisingly based on modularisation and innovative technologies, and replaces a very successful engine series. It allows the use of a start/stop function, 4MATIC all-wheel drive and combination with a hybrid module.
The V8 is in a new league of its own
While the new V8 is based on its predecessor and has the same distance between the cylinders, it has undergone concerted further development in every respect. For example, it has a 15-percent smaller displacement (4663 cc rather than 5461 cc) but generates 320 kW (435 hp) and therefore around 12 percent more output than the preceding unit (285 kW/388 hp). Whereas the current CL 500 consumes 12.3 litres per 100 kilometres, this figure drops to 9.5 litres with the new engine - a reduction of 22 percent. CO2 emissions have likewise fallen by 22 percent, from 288 g/km to 224 g/km - an outstanding figure for this performance class. At the same time torque has been raised from 530 Nm to 700 Nm - an increase of 32 percent. In terms of specific output, the new V8 with 68.6 kW and 150 Nm per litre achieves first-class values.
In the new V8, Mercedes-Benz engineers primarily achieved a high output for a lower displacement by using two turbochargers - one for each bank of cylinders. The intake air is forced into the eight combustion chambers at an overpressure of up to 0.9 bar, with the turbine blades rotating at up to 150,000 rpm. The turbochargers and their hot gas ducting are accommodated on the outsides of the cylinder heads. This enabled the intercooler module with its air/water intercooler and charge-air distributor to be located inside the V of the engine.
The chargers were configured to provide high torque even at low engine speeds - compared to the previous engine, the result is an increase by more than 45 percent at 2000 rpm. No less than 600 Nm is available between 1600 and 4750 rpm.
The engine is based on a further development of the previous engine's die cast aluminium crankcase with cast-in aluminium/silicon (Silitec) cylinder liners. Basic and connecting rod journal diameters were adopted from the preceding engine, while for load reasons the piston compression height was raised by just under four millimetres. By reducing the lift and shortening the connecting rod by 2 millimetres, it was possible to retain the interior height of the crankcase. As a remarkable feature, the high compression ratio of 10.5:1 remains unchanged versus the naturally aspirated preceding engine, showing the high efficiency of the new, turbocharged V8 when configured for premium fuel (RON 95).
Key figures for the new V8 engine
No. of cylinders - V8
Displacement (cc) - 4663
Bore (mm) - 92.9
Stroke (mm) - 86
Compression ratio - 10.5:1
Output (kW at rpm) - 320 at 5250
Torque (Nm at rpm) - 700 from 1800-3500
The V6 particularly impresses with its low fuel consumption
In contrast to the V8 the new V6 engine is naturally aspirated, and has the potential for future use of a turbocharger thanks to the modular design concept. The most striking change between the new V6 unit and its predecessor is a reduction in the V-angle between the cylinder banks from 90 degrees to 60 degrees. This enabled the balancer shaft countering primary vibrations to be omitted, and as a result the driver registers an outstanding level of comfort.
A completely new intake and exhaust gas system with a variable-resonance intake manifold and optimised airflows was also developed for the new V6. This enabled the output of the 3499 cc engine to be increased to 225 kW (306 hp) (Previous engine of the same displacement in the S-Class: 200 kW/272 hp). Torque has increased from 350 Nm to 370 Nm, and is available between 3500 and 5250 rpm.
The improvement in fuel consumption is particularly remarkable. The S 350 with the new V6 engine consumes just 7.6 litres per 100 kilometres (CO2 emissions: 177 g/km), which makes it 24 percent more economical than its predecessor (10.0 l/100 km). It also makes the new V6 the benchmark in its segment for a comparable output (provisional figures).
Key figures for the new V6 engine
No. of cylinders - V6
Displacement (cc) - 3499
Bore (mm) - 92.9
Stroke (mm) - 86
Compression ratio - 12.2:1
Output (kW at rpm) - 225 at 6500
Torque (Nm at rpm) - 370 from 3500-5250
Innovative technology makes V6 and V8 engines fit for the future
Both the new V6 and the new V8 from Mercedes-Benz have aluminium crankcases, pistons and cylinder heads. The crankshaft, connecting rods and valves are of special forged steel.
Mercedes-Benz has achieved this considerable leap in efficiency with the use of innovative technology – including newly developed, third-generation direct petrol injection with spray-guided combustion, multiple injection and multi-spark ignition. With this new generation of V-engines, Mercedes-Benz is clearly demonstrating that with concerted further development, internal combustion engines still have a great deal of potential, and that V6 and V8 engines with their great running refinement are fit for the future.
The technology package in the new engine generation includes a number of new developments that are unique in this combination:
- In combination with multi-spark ignition, a further developed, third generation direct fuel injection system with spray-guided combustion and piezo-electric injectors offers further possibilities for fuel savings – in the V8 by means of an improved, homogeneous combustion process, and in the V6 by a new, stratified combustion process with a considerably extended characteristic map and fuel-efficient lean-burn technology.
- In conjunction with start/stop technology, shift point adjustment and specific friction-reducing measures, improvements in day-to-day fuel consumption by more than 20 percent are possible.
- Power consumption by ancillary units has been reduced. These include an optimised water pump with second generation thermal management, a demand-controlled oil pump, a volume-controlled high-pressure fuel pump and an intelligent generator management system.
Lightweight construction techniques and detailed improvements have also reduced in-engine friction considerably compared to the previous engine.
Third generation direct petrol injection
Direct petrol injection with spray-guided combustion, which Mercedes-Benz was the first car manufacturer to introduce in series production, has been developed further as a third generation. The system pressure is up to 200 bar, the pressure being variably optimised according to the engine's characteristic map. Completely newly developed piezo-electric injectors allow up to five injections per intake stroke for the best possible mixture formation.
The crystalline structure of the piezo-ceramic changes in microseconds under an electric voltage, and with a precision of just a few thousandths of a millimetre. The central component of a piezo-electric injector is the piezo-stack, which directly controls the metering needle. With a response time of just 0.1 milli-seconds, the fuel injection can be very sensitively and precisely adjusted to the current load and engine speed, with a beneficial effect on emissions, fuel consumption and combustion noise.
The multiple injections even in tiny quantities made possible with piezo-electric injection technology were used by Mercedes-Benz engineers to control a wider characteristic map with the efficient lean-burn process, and to provide the conditions for further functions:
- As the first new operating mode, Mercedes-Benz engineers have developed "Homogeneous stratified combustion" (HOS). As the name implies, HOS is a combination of homogeneous lean-burn and classic stratified combustion. The first injection is sprayed into the intake stroke, forming a homogeneous basic mixture. Actual "stratified" injection takes place during the compression stroke before ignition, and is a single or double injection depending on the characteristic map.
- Another new operating mode is known as "Homogeneous Split" (HSP). In this homogeneous combustion process, more than 95 percent of the fuel is singly or multiply injected, followed a very small "ignition" injection to stabilise combustion. This is used when combustion conditions are difficult.
The characteristic map of the new Mercedes-Benz V6 engine is therefore basically divided into up to four areas:
- idling range (homogeneous)
- low partial load up to 4 bar and 3800 rpm (stratified)
- medium partial load 4 to 8 bar and up to 4000 rpm (HOS)
- high load and entire engine speed range (homogeneous or HSP)
The V8 engine is operated homogeneously over the entire characteristic map, but under high load homogeneous or HSP operation is used to improve smooth running characteristics.
Multi-spark ignition for optimal efficiency
The third-generation direct injection system also features rapid multi-spark ignition (MSI). Following the first spark discharge and a brief combustion period, the coil is rapidly recharged and a further spark is discharged. The MSI system enables up to four sparks to be discharged in rapid succession within one millisecond, creating a plasma with a larger spatial expansion than conventional ignition. Controlling this rapid multi-spark ignition enables both the time lapse before the next spark and the combustion duration for the relevant operating point to be optimally adjusted. This provides scope for optimising the centre of combustion and improving residual gas compatibility, especially during stratified charge operation. Fuel consumption can be reduced by roughly two percent in this way.
Fuel savings of up to four percent are possible alone by the use of piezo-electric injection technology in combination with multi-spark ignition, depending on the driving cycle.
Cylinder head with new camshaft adjuster
On the basis of the previous engine's architecture, Mercedes-Benz engineers developed the variable, hydraulic vane-type camshaft adjusters for the intake and exhaust sides. These now have a larger adjustment range of 40 degrees with reference to the crankshaft. They were also able to improve the functionality, achieving a 35-percent greater adjustment speed and adjustability at an oil pressure as low as 0.44 bar. Despite the better performance, this new development excels with significantly smaller dimensions and low weight. For this reason the installation space on the longitudinal and vertical axes of the engine was able to be reduced by around 15 millimetres.
Two-stage chain drive for low noise
The extreme compactness of the camshaft adjusters was achieved by the new, two-stage chain drive. This drives short secondary chains - one per cylinder bank - via a primary chain and an intermediate gear. All three chains can be individually adjusted via a chain tensioner. This results in low tensioning forces and low chain dynamics, ensuring consistent timing and outstanding acoustic properties, with friction reduced even further. In short, the new chain drive is compact and ensures low-noise operation.
Controlled oil pump with two pressure stages
A fourth chain drivers a likewise completely newly developed, variable vane-type oil pump. The operates with two pressure stages, depending on the characteristic map. At low engine speeds and loads the pump runs at a low pressure of two bar. At this time the oil-spray nozzles for piston cooling are switched off. The high-pressure stage is activated at the upper load and engine speed levels. Thanks to this control concept, the lubrication and cooling points of the engine can be supplied with significantly lower drive energy than would be possible with an uncontrolled pump.
New coolant ducting and 3-phase thermal management
The coolant ducting in the cylinder head is also completely new. The water mantle is of two-piece construction to improve flow. This leads to specific increases in flow speeds and heat dissipation at certain points, accompanied by a reduction in pressure throughout the coolant circuit. This has made it possible to reduce the power output of the water pump despite an increased engine output.
As it warms up, the flow of coolant is regulated by a 3-phase thermal management system so that it rapidly reaches normal operating temperature. Initially the coolant remains at rest in the engine. It then circulates in the engine circuit, but without the radiator. When a temperature of 105 degrees Celsius has been reached in normal operation (87 degrees Celsius under high load), the vehicle's radiator is included in the circuit. The water supply to the interior heating system is separately controllable.
Component weights have also been reduced by the concerted replacement of aluminium and steel by plastics, e.g. for the thermostat, belt pulley, wheel, heater valve and hydraulic lines.
Start/stop function with direct-start
The new start/stop system operates with starter-supported direct-start. This means that when the engine is switched off, the attitude of the crankshaft is registered by a new crankshaft sensor so that the engine control unit knows the positions of the individual pistons. On restarting, it can then select the cylinder that has the most suitable piston position for first ignition. After the starter has briefly turned over the engine, reliable injection, ignition and combustion is immediately possible.
Minimised friction
Particular attention was paid to reduced friction in both engines. This was primarily achieved by a reduction in flow through the oil and water pumps, low-friction pistons, piston rings and cylinder walls, plus the new thermal management system and chain drive.
Fit for the future thanks to modular construction
The new V-engines from Mercedes-Benz are fit for the future. They can not only be combined with a start/stop function, but also coupled with the 4MATIC four-wheel drive system or integrated into a hybrid drive system.
The new engines meet all worldwide emissions regulations. The use of third generation, direct petrol injection with spray-guided combustion and piezo-electric injectors provides a particularly good basis for increased stringency in the future.
Copyright © 2010, Mercedes-Benz-Blog. All rights reserved.
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