Posted on 01/26/2012 7:35:38 AM PST by Jack of all Trades
BMW has introduced a new range of M Performance Automobiles featuring a new 6-cylinder in-line diesel developed exclusively for those applications. The engines, which feature three turbochargers, deliver maximum output reaching 280 kW/381 hp and peak torque of 740 N·m (546 lb-ft).
The new engine is applied in the BMW M550d xDrive Sedan, BMW M550d xDrive Touring, BMW X5 M50d and BMW X6 M50d. The vehicles are also equipped with an eight-speed sports automatic gearbox and the intelligent all-wheel-drive system BMW xDrive tuned to suit each model, as well as BMW EfficientDynamics technologies, including Auto Start-Stop and ECO PRO mode.
The BMW M550d xDrive Sedan, the most fuel-efficient of the new series, accelerates from 0 100 km/h (62 mph) in 4.7 seconds and has a top speed of 250 km/h (155 mph). Average fuel consumption is 6.3 liters/100 kilometers (37.3 mpg US), with CO2 emissions of 165 g/km. The vehicle meets Euro 6 exhaust standards.
Output and torque diagram for the new diesel. Click to enlarge. M Performance TwinPower Turbo diesel with tri-turbo. The market launch of the first BMW M Performance Automobiles also marks the premiere of the most powerful diesel engine ever fitted in one of the brands models. With maximum output of 280 kW/381 hp, the 2,993 cc engine has a specific output of 93.6 kW/127.3 hp per liter of displacement. The maximum torque of 740 N·m (546 lb-ft) is on tap as low down as 2,000 rpm.
Playing a central role in this increase in power is M Performance TwinPower Turbo technology. The engine developed for the BMW M Performance Automobiles will, for the first time, see two comparatively small high-pressure chargers working with a larger low-pressure unit. The integration of an additional high-pressure turbo increases the engines capability when it comes to generating charge pressure, a key ingredient in taking the engines power output to the next level.
The M Performance TwinPower Turbo technologyincluding the requisite charge air coolingis integrated into a small space in the main unit. Its compact construction puts the engine in a position to meet future pedestrian protection stipulations, while the arrangement of the three turbochargers is also part of an intelligent system.
Both the exhaust inflow to drive the turbos and the supply of fresh air, plus the channelling of compressed air to the combustion chambers, have been designed to ensure that the three compression units work as a team as effectively as possible at all engine speeds. Efficiency is further optimized by the variable turbine geometry of the two high-pressure chargers, which allows them to react even more precisely to the drivers power needs.
One of the two small turbos is activated at engine speeds just above idle. Its low moment of inertia allows it to respond without delay to slight movements of the accelerator and therefore supply the combustion chambers with compressed air at an early stage. As revs increase, the flow of exhaust gas also reaches the larger turbocharger, which announces its arrival with the engine spinning at just 1,500 rpm. Working together with the small charger, it ensures that the peak torque of 740 Newton metres (546 lb-ft) is generated at this low engine speed and maintained up to 3,000 rpm.
To further increase the performance of the large turbocharger, a greater volume of exhaust gas is required at around 2,700 rpm. If the driver calls up additional power, a vacuum-modulated exhaust flap instantly opens up another supply route, allowing extra exhaust gas to flow past the already active high-pressure charger to the large low-pressure turbo. The third turbochargerintegrated into this bypass linealso has a low moment of inertia and variable compressor geometry, which allow it to spring into action as soon as the exhaust flap opens. The result is additional charge pressure, generated by two sources at the same time. The large turbocharger is able to deliver its full output, while the second small turbo builds on the effect of its two active colleagues by supplying even more compressed air to the combustion chambers.
This arrangement allows the turbocharging system to drive the engine with sustained thrust to its maximum output, which it achieves up between 4,000 and 4,400 rpm. The maximum engine speed of the new diesel powerplant is 5,400 rpm. In order to ensure that charge pressure is developed as effectively as possible, both the exhaust flow and supply of fresh air to the turbos and the channelling of compressed air into the combustion chambers is regulated with precision.
If the large turbocharger is spinning at particularly high speeds, a vacuum regulator opens a wastegate valve to relieve the pressure and so avoid unwanted exhaust backpressure. The supply of fresh air is also controlled according to need by means of pneumatically activated flaps. For example, at low revs a bypass flap ensures that the air is channelled directly to the high-pressure charger, which spins into action very early. At less than 2,700 rpm a change-over flap keeps the air away from the third turbo, which is not yet active, to prevent unnecessary fluctuations in pressure.
Indirect charge air cooling enables the temperature of the air compressed by the three turbos to be reduced to the optimum level for increasing engine output. Both the main radiator positioned immediately in front of the combustion chambers and the intercooler behind the low-pressure charger are supplied by a low-temperature water circuit with separate electric pump.
Increased combustion pressure. Maximum combustion pressure in the engine has risen from the 185 bar of the most powerful diesel engine in the existing BMW line-up to 200 bar. As part of this development, the crankcase in the new 3.0-liter diesel engine features a novel tie rod concept for the assembly of the main bearing caps and cylinder head. The sintered main bearing caps are given extra strength by a central screw. Like the crankcase, the cylinder head is also subjected to a special high-pressure compression process.
This HIPen manufacturing concept sees the aluminium castings heated to solution annealing temperature and the casting pores created during manufacturing welded under high pressure. This process gives the finished component additional strength. A double diagonal bore ensures the interbore bridges have high thermal stability.
The geometry of the crankshaft and connecting rods has been further optimized and they are now made from higher-strength materials. Added to which, hub bushings and bowl rim remelting enhance the effect of the increase in piston compression height.
Fuel injection system. Higher pressure also raises the efficiency of the injection system. The injection system of the new six-cylinder in-line diesel engine has also benefited from further development. The upgraded system raises the injection pressure of the piezo injectors to 2,200 bar. During each power stroke, three pre-injections, one main injection and four post-injections of fuel take place.
An ultra-high-performance pump channels the fuel to the combustion chambers through a common rail made from forged stainless steel.
The output and capacity of the cooling system have been given another boost, too. An additional low-temperature circuit supplied by an electric water pump controls the temperature of the intercoolers. The exhaust treatment system includes a diesel particulate filter and oxidation catalytic converter, which is located close to the engine in the same casing. More efficient exhaust cooling, meanwhile, minimises the formation of nitrogen oxides. Standard-fitted BMW BluePerformance technology, which includes a NOx storage catalytic converter, helps the new diesel engine powering the BMW M550d xDrive to meet the EU6 exhaust standard not due to come into force until 2014.
Eight-speed automatic. The configuration of the transmission management system for the BMW M Performance Automobiles promotes dynamic acceleration. The M-specification gearshift dynamics enable extremely rapid gear changes with an almost uninterrupted flow of power. The eight-speed Sports automatic transmission offers the driver two automated shift programsD and S modesas well as the option of changing gear manually (in M mode). The automatic gearbox is operated using an electronic gearshift lever on the centre console adorned with an M logo. Manual mode allows the driver to change gears sequentially using either the gearshift lever or the paddles on the steering wheel.
In keeping with M fashion, the right-hand paddle changes up a gear and the left-hand paddle is used for downshifts. If the driver activates manual mode using the gearshift lever, the transmission holds the gear selected until the engines revs hit the limiter. By not shifting up automatically in this mode, the gearbox gives the driver maximum control over the car when pushing the dynamic boundaries. The driver can also switch instantaneously from automatic gear changes to M mode with a nudge of one of the gearshift paddles; if M mode is selected in this way, the gearboxs automatic shift-up function remains active. The transmission also restores automatic mode if the gearshift paddles are not used again following an upshift or downshift.
Never could afford a BMW. Still can’t!!
I’m a big fan of torque! 546 lb./ft.? Wow!
I am not a mechanical engineer, but I do know the straight 6 configuration has always been a good one, especially for gasoline engines. The old Dodge slant 6 was almost impossible to kill.
Rest In Peace, old friend, your work is finished.....
If you want ON or OFF the DIESEL KnOcK LIST just FReepmail me.....
This is a fairly HIGH VOLUME ping list on some days.....
” The maximum torque of 740 N·m (546 lb-ft) is on tap as low down as 2,000 rpm.”
This can get ya’ inta’ trouble FAST.
Deisel is now getting interesting.
As long as my X5 would still have that grumble to it... The 4.4 V8 just sounds sweet.
Hey, I posted an article! Thanks for the ping list.
“Deisel is now getting interesting.”
Just now your finding diesel interesting?
I am on my 3rd diesel since 1996 (’96 VW Passat TDI wagon - sold after 315,000 miles to a friend who loves it) and I am currently driving an ‘02 VW Golf TDI (157,000 miles) and a recently acquired ‘11 Jetta TDI Sportwagen.
Let me tell you, as much as I loved the older 2 TDI’s, the new Sportwagen is OUTSTANDING!
My first car had a deuce-and-a-quarter Slant 6. It was great for the time.
Straight sixes have perfect primary and secondary balance. For this reason, they were the choice for early Rolls-Royces. A lot of classic piston aircraft engines, like the Liberty, Allison, and Merlin, were V-12s; basically two I-6s joined at the crankcase.
I love the rumble of a V-8 too, but for a no-fuss interstate-carving luxury car, with decent mileage, and the torque to stomp on it once in a while, this engine would be tough to beat.
But why does the innovation seem to come primarily from Europe -- Germany in particular? It's interesting. German manufacturing wages are even higher than America's, yet they remain an industrial juggernaut.
Obviously, we're missing something here.
Audi Diesel won at LeMans last year, they are getting better and better.
Regulation. It’s even worse here in some areas than Europe.
CARB, CAFE, etc.
Bought a used 2002 VW Jetta diesel for my 50 mile commuTe to work.
I’m averaging 52 mpg and is fun to drive, plenty of pep. From now on all my commuters will be diesels....
Audi has had their TDI race cars in contention at LeMans for a number of years now, with multiple victories. BTW, check iTunes for a free video download called "Truth in 24" - it's a documentary about the development of the Audi car and racing program. It's well worth the 1.5 hours and has great HD racing footage.
Our 2002 TDI Golf is my daily driver - great to drive, easy to park (on the street in NYC), and I get 39-40mpg in city driving, and 46-50 on the highway (heavy foot, here).
It is true that Europe has no government-issued mileage requirements, hard as that is to believe.
An inline six diesel with THREE turbos? I just added this to my wish list...
Disclaimer: Opinions posted on Free Republic are those of the individual posters and do not necessarily represent the opinion of Free Republic or its management. All materials posted herein are protected by copyright law and the exemption for fair use of copyrighted works.