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2014 Renault Clio Cup【Video】Renault has released the first details for the 2014 Clio Cup. The 2014 Renault Clio Cup will be exclusively offered will go on sale in September of 2013 with pricing starts at €37,800.


Mercedes-Benz has officially released all the details on its new family of V6 and V8 engines due to launch this fall in the S-Class sedans and CL coupes. The new power-plants are adopting many of the same technologies increasingly being used by most automakers to reduce fuel consumption while maintaining or even improving output. Both the 3.5-liter V6 and the 4.7-liter V8 now feature direct fuel injection with the same type of piezo-electric injectors used on the latest diesel engines.

The new V8 is a direct-injected twin-turbo unit of 4,663 cc displacement. According to Mercedes, the engine, which will appear first in the CL-Class coupe and S-Class sedan this fall, will pump out a healthy 435 horsepower and 516 pound-feet of torque, up 12 percent and 32 percent respectively. Thanks to the direct injection system, Mercedes can run the engine at 10.5:1 compression ratio.

Also up for an overhaul is Mercedes' 3.5-liter V6. The new mill will have an all-new 60 degree V block with new intake and exhaust. The sum of these changes is 306 horsepower and 273 lb-ft of twist, and a reported fuel economy savings of 24 percent in the not-for-U.S.-consumption S350. The new 3.5-liter will be an especially welcome addition to the Mercedes lineup, as the current 268 horsepower engine isn't exactly keeping up with similar displacement engines available from Lexus, Infiniti, Cadillac and Acura.

According to Mercedes, the S63 AMG will go from 0 to 60mph in 4.5 seconds in standard tune and a tenth quicker with the Performance Pack. The M157, as it's known internally, weighs slightly more than its predecessor (450 lbs. vs. 438), but fuel efficiency is way up. Mercedes says the S63 AMG will get up to 23.5 mpg on the highway, a 25% improvement.  A stop/start feature is one reason for the increased efficiency.


Mercedes-Benz 4.7-liter twin-turbo V8 Mercedes-Benz 4.7-liter twin-turbo V8 Mercedes-Benz 4.7-liter twin-turbo V8 Mercedes-Benz 4.7-liter twin-turbo V8 Mercedes-Benz 4.7-liter twin-turbo V8 Mercedes-Benz 4.7-liter twin-turbo V8 Mercedes-Benz 4.7-liter twin-turbo V8


Press Release

Engine Production

The cradle of engine design
• A success story from the outset
• State-of-the-art engine technology
• Exemplary approach to environmental protection at the plant


Bad Cannstatt has a long and successful history as the birthplace of
Mercedes-Benz engines. For 125 years ago this was where Gottlieb Daimler and
Wilhelm Maybach built their "grandfather clock" – the world's first
single-cylinder engine. It was to become a pioneering invention which
simultaneously marked the birth of automotive mobility. Today, just a stone's
throw from Daimler's famous greenhouse – the original scene of these activities
– is located the most recent sub-plant of the Untertürkheim plant, the V-engine
factory at Bad Cannstatt.

This "factory of the future" was officially opened in 1997. For the first time
the all-new engine series for 6 and 8-cylinder engines was produced using the
same state-of-the-art production facilities. Even then, the objective was to
achieve efficient production using as many common components as possible for the
variants of the new engine series. With a high output of unit numbers, this
meant reduced costs – which ultimately also benefited the customer. The decision
to locate to Bad Cannstatt at the time involved an investment worth
approximately 1 billion Deutschmarks, 700 million DM of which were earmarked for
plant construction and equipment alone.

In 2004 the original production area of 66,300 square metres was expanded by
around 18,000 square metres to 84,200 square metres. With a workforce of around
900 employees, the specialist V-engine production facility is today a key part
of the production network. Since its official opening, over four million
examples of the V-engine duo have already come off the assembly lines at the
Cannstatt plant. And this success story is set to continue with production of
the new series. In addition to pure engine assembly, Cannstatt is also
responsible for the mechanical processing of key components such as crankcases,
crankshafts, con rods and cylinder heads.

Envirtonmental protection as a matter of routine

Even at its official opening the Cannstatt plant was considered proof that
efficient production, ecological commonsense and attractive jobs were not
necessarily mutually exclusive. Here, minimum energy requirements went hand in
hand with the optimum use of all resources. This involved, for example,
minimising waste materials and recycling process fluids and chips from
mechanical processing. With its closed-loop process recycling systems, Cannstatt
is almost completely free of wastewater and waste materials, and the plant falls
well within legal limits for clean gas values.

The Bad Cannstatt plant has set new standards with approaches that combine the
utilisation of waste heat and heat recovery with an advanced photovoltaic
system. The solar panelling – which covers an area of 5,000 square metres and at
the time was one of the largest systems found anywhere in the world – generates
an annual energy output of 350,000 kWh. This is sufficient to meet the
electricity needs of more than 120 homes. The electricity generated is fed
directly into the plant grid.

For production of the new series the plant adopted the award-winning principle
of minimum quantity lubrication, which involves mixing minimum quantities of
lubricant with cold air instead of using conventional cooling lubricant. The new
process uses a fraction of the volume of cooling lubricant previously used.
Since these substances are manufactured from petroleum and demand both energy
and cost intensive preparation, the innovation of minimum quantity lubrication
represents an enormous cost advantage and a significant contribution to
environmental protection.

In addition, a true eco-paradise has been created on the outskirts of the plant.
The "Neckar gravel bed" concept was developed in collaboration with
environmental and nature conservation associations. After replicating a Neckar
meadow over an area of 4,000 square metres – complete with its own
characteristic heat islands and warm microclimate – it has been shown that 40
species of wild bee have now found a new habitat.

The Cannstatt plant in focus:

Total area

Production area

150,000 m²

84,200 m²

Employees

900

Official plant opening

April 1997

Products

V6 and V8 petrol engines

A short history of injection engines

Mercedes-Benz is a pioneer in direct petrol injection

• The legendary 300 SL was the trailblazer
• First petrol engine with piezo-electric direct injection and spray-guided
combustion

In 1954 Mercedes-Benz equipped the legendary 300 SL with a four-cylinder engine
featuring direct petrol injection as a world first for series production cars.
Since then, the company has pioneered direct petrol injection technology for
cars with ongoing further development and improvements.

In 1994, the researchers and engineers at Mercedes-Benz entered new
technological territory when they began the development of a spray-guided
combustion process. In the view of specialists, this offers the greatest
potential for mastering two of the major automotive engineering challenges of
the future, namely further reductions in fuel consumption and exhaust emissions.

At the end of 2002 Mercedes-Benz presented a new development stage in direct
petrol injection with the new 1.8-litre CGI four-cylinder engine. CGI stands for
"Stratified Charge Gasoline Injection".

The second-generation CGI process reached a new level in the CLS 350 CGI
introduced in 2006: the four-door coupé featured the world's first petrol engine
with piezo-electric direct injection and spray-guided combustion. This
six-cylinder unit achieved a fuel saving of around ten percent versus the V6
petrol engine with port injection.

The present state of the art is now reflected by the new V6 and V8 engines with
third-generation direct injection and multi-spark ignition. They combine a high
output with excellent economy and environmental compatibility, and offer
refinement at the highest level. They set previously unachieved benchmarks in
the premium segment for Mercedes-Benz.

Development, trials and test bench technology:

Endurance test for the new V-engines

• 52,000 hours of test bench trials
• Seven million kilometres of test drives
• 2 million core hours of computer calculation per year

Before the new V6 and V8 engines were allowed onto the roads, they had already
absolved a series of torturous trials, for example on the engine test benches of
the test facility in Untertürkheim. 24 of the very latest engine test benches
are installed on each floor of this imposing three-storey building. These 72
test benches are in operation by day and night, otherwise it is impossible to
complete the enormous test programme to which Mercedes-Benz engineers subject
all engines.

A wide range of road and load situations can be simulated on the test benches,
reflecting every conceivable operating profile such as hot and cold starts,
stop-and-go and long-distance driving under very varied conditions. All in all,
the new V8 engines from Mercedes-Benz and their ancillary units were required to
absolve 52,000 test hours, of which 27,000 were endurance runs.

In parallel with this, extensive practical trials were started in all the
climatic zones of the world – in the winter cold of the Arctic and the merciless
heat of Death Valley (USA), in desert sands and the thin air of Alpine regions
or in tropical jungles. The programme also included fast laps on e.g. the
high-speed racetracks in Nardo (Italy) and Papenburg, as well as stop-and-go
driving in busy inner-city areas. All in all, the different test vehicles with
the new V8 engine covered almost seven million kilometres under very varied
conditions. Similar figures apply to the V6 engine.

Naturally the development process began well before these practical trials –
namely on the computer screens of the development engineers. This is where the
fundamental design calculations were made with the help of modern computers. All
the mechanical functions were conceived and alternatives compared here, e.g. the
oil and coolant circuits, the various options for intake air ducting, the
charging strategy, combustion chamber geometry incl. the intake and exhaust
duct, as well as the multiple injection system. All were created and calculated
on-screen.

1,800 computer cores provided the necessary computing power for this development
process. More than two million core hours were needed to calculate and verify
all the engine functions and components for the best possible result.

Without the very latest computers, it would not have been possible to explore
technical boundaries and use new processes such as multiple injection. This is
because the engineers not only used this enormous computing power for design
calculations, but also for the simulation and testing of all engine functions.

Finally the engineers used PCs to establish the best possible configurations for
all components, so that they met precisely formulated criteria and could be
approved for production of the first prototypes. After this exhaustive
verification process, the first engines in the new V-engine generation from
Mercedes-Benz immediately ran reliably and met all expectations on the test
bench.

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)

4633

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.

New V8 and V6 engines with innovative technology from Mercedes-Benz

Quantum leap in efficiency: smooth refinement meets new dimensions in power and
environmental compatibility

Stuttgart – Mercedes-Benz is setting previously unachievable efficiency
standards in the premium segment with completely newly developed V6 and V8
engines. The new V8 engine has a displacement of 4663 cc and develops an output
of 320 kW (435 hp), which is around 12 percent more than its predecessor despite
approx. 0.8 litres less displacement. Torque has increased from 530 Nm to 700 Nm
– i.e. by no less than 32 percent. Fuel consumption has however been reduced by
22 percent. With the same 3499 cc displacement as its predecessor, the new V6
engine develops 225 kW (306 hp). Torque has increased from 350 Nm to 370 Nm.
Here too, the improvement in fuel efficiency is remarkable. The S 350 with the
new V6 engine consumes an economical 7.6 litres per 100 kilometres, a saving of
24 percent compared to its predecessor. Mercedes-Benz has achieved this
considerable leap in efficiency with the use of a start/stop function as
standard and other features such as 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 can continue to be used to good
effect in the future.

Considerably less fuel consumption despite a much higher output was the
development objective for the new Mercedes-Benz V-engine generation, which will
initially be used as an 8-cylinder in the CL-Class, and later in 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.

"The new six and eight-cylinder engines from Mercedes-Benz are a unique
synthesis of effortless power delivery, comfort and efficiency," says Dr. Thomas
Weber, the member of the Daimler AG Executive Board responsible for corporate
research and development at Mercedes-Benz Cars. "Both impress with refinement at
the highest level, as well as exemplary environmental compatibility."

The new Mercedes-Benz engine family is uncompromisingly based on modularisation.
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

On the basis of its predecessor, the new V8 has undergone concerted further
development. 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.

As the high maximum torque is already available from 1800 rpm, the new high-tech
V8 already exhibits an outstanding power delivery at low engine speeds, together
with smoothness and refinement that is remarkable even for an eight-cylinder.

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 chargers were configured to provide high torque even at low engine speeds –
compared to the previous engine the result is an increase of more than 40
percent at 2000 rpm. An outstanding 600 Nm is available between 1600 and 4750
rpm. The driver therefore perceives no turbo delay, but experiences the same
pleasant and effortless performance from the new V8 as that delivered by a
mighty, naturally aspirated 7-litre engine.

The V6 particularly impresses with its low fuel consumption

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).

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.

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 2nd-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.

With its new-generation 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 high level of
refinement are fit for the future.


Volvo is making the new five-cylinder 2-liter turbodiesel introduced in the all-new Volvo S60 available throughout its 2011 model range.

The new five-cylinder diesel unit is in principle the same engine as the 2.4-litre diesel, but its displacement has been reduced (with a shorter stroke) to 2.0-liters. It will be offered in three different variants in terms of output.

For the Volvo C30, S40, V50 and C70 models, the new 2.0 liter diesel comes designated as a D3 with 150 hp (112 kW) and 350 Nm of torque. A D4 variant of the same power plant is also available with 177 hp (132 kW) and 400 Nm.

In addition, Volvo updated its 3.0-liter six-cylinder turbocharged petrol T6 that now offers 304HP and 440 Nm of torque.
The six-cylinder 3.2-litre naturally aspirated engine has also been upgraded and features an improved crankshaft and less internal friction. It now produces 243HP and maximum torque is 320 Nm.


Volvo five-cylinder 2- litreVolvo five-cylinder 2- litreVolvo five-cylinder 2- litreVolvo five-cylinder 2- litreVolvo five-cylinder 2- litreVolvo five-cylinder 2- litre



Press Release

Upgraded engines and lower fuel consumption in Volvo Cars' 2011
models

The new five-cylinder
2-litre turbodiesel introduced in the all-new Volvo S60 is now available
throughout Volvo Cars' model range - and there are upgraded six-cylinder
petrol engines too.

"The new engines offer greater driving pleasure across the
range. What is more, our strong drive to reduce carbon dioxide emissions
means that fuel consumption has been cut as well," says Magnus Jonsson,
Senior Vice President Product Development at Volvo Cars.

The new five-cylinder D3 is in principle the same engine as
the well-established 2.4-litre diesel, but its displacement has been reduced
with a shorter stroke to optimise fuel consumption.

The engine has been optimised for low fuel consumption and the injection
system has a different type of piezoelectric fuel injector compared with the
D5 engine. These injectors minimise consumption with exceptionally rapid and
precise injection pulses under high pressure. This promotes extremely
efficient combustion.

In order to give the car better driving properties, the
turbocharger has been fine-tuned to provide high torque from low revs.

In the Volvo S80, V70, XC70 and XC60 the newly developed
2-litre diesel engine produces 163 hp and 400 Nm of torque. In these models
the engine is badged the D3.

Fuel consumption (EU Combined, preliminary figures) and CO2
emissions:

Model GearboxFuel Cons (l/100km)

CO2 Emissions (g/km)

S80 D3Man5.3139
V70 D3 Man 5.5 144
XC70 D3Man 5.9 154
XC60 D3 Man 5.9 154

The Volvo S80, V70, XC70 and XC60 can also be specified with
the high-performance D5 engine that produces 205 horsepower and 420 Nm of
torque.

All the variants of the new two-litre turbodiesel can be mated to a
six-speed automatic transmission or six-speed manual gearbox. In the D5, the
automatic transmission now also features a Sport setting for more agile
gearchanging.

Two 2-litre variants in the C30, S40, V50 and C70

In the Volvo C30, S40, V50 and C70 the new 2-litre turbodiesel is available
in two variants:

  • D4 with 177 hp and 400 Nm of torque.

  • D3 with 150 hp and 350 Nm of torque. This engine will be
    introduced in the C70 during the spring and later in 2010 it will also
    become available in the C30, S40 and V50.

Both the new D3 and D4 meet the Euro 5 emission standards.

Fuel consumption (EU Combined, preliminary figures) and CO2
emissions:

Model GearboxFuel Cons (l/100km)

CO2 Emissions (g/km)

C30 D4Man5.1134
C30 D3 Man 5.1 134
S40 D4 Man 5.1 134
S40 D3 Man 5.1 134
V50 D4Man5.1134
V50 D3 Man5.1134
C70 D4Man5.9154
C70 D3 Man5.9154

All the variants of the new two-litre turbodiesel can be
specified with a six-speed automatic transmission or six-speed manual
gearbox.

D2 with 114 g CO2 emissions

The C30, S40 and V50 are also available with the 1.6-litre diesel engine D2,
which also complies with the Euro 5 standards. Fuel consumption in all three
models is 4.3l/100 km (EU Combined), which corresponds to CO2 emissions of
114 g/km. The engine produces 115 hp and 270 Nm of torque and now comes with
a six-speed manual gearbox.

Sharper T6 and 3.2-litre naturally aspirated engine

Volvo S80, V70, XC70 and XC60 also get upgraded petrol engines:

  • The six-cylinder, turbocharged T6 has a displacement of
    3.0 litres and it now offers even sharper performance, thanks mainly to
    a reduction in internal friction. As in the all-new S60, it now offers
    304 hp and no less than 440 Nm of torque. Maximum torque is achieved
    between 2100 and 4200 revs. This results in rapid acceleration and
    smooth driving properties. All-Wheel Drive is fitted as standard.

  • The six-cylinder 3.2-litre naturally aspirated engine
    has also been upgraded and features an improved crankshaft and less
    internal friction. It now offers 243 hp and maximum torque is 320 Nm. In
    order to meet US legislative requirements, there is also a PZEV (Partial
    Zero Emission Vehicle) variant that produces 231 hp and 300 Nm.

Fuel consumption (EU Combined, preliminary figures) and CO2
emissions:

Model GearboxFuel Cons (l/100km)

CO2 Emissions (g/km)

S80 T6Aut9.9231
S80 3.2 Aut 8.9 208
V70 T6 Aut 10.2237
V70 3.2 Aut 9.2 214
XC70 T6Aut10.6248
XC70 3.2 Aut 10.1234
XC60 T6Aut10.7249
XC60 3.2Aut9.9229

Other new features on the Volvo S80, V70, XC70 and XC60

Among the other new features in the 2011 Volvo S80, V70, XC70 and XC60
line-up are:

  • New exterior colour, Flamenco Red, for all four models.

  • The Volvo XC60 is also available in a new colour,
    Seashell, and the range of wheel rims has been extended with a new
    18-inch wheel with six double spokes.

  • The Volvo V70 gets colour-coded lower body panels as
    standard, in line with the Volvo S80.

  • The Volvo On Call system can now be combined with the
    Bluetooth mobile phone service.

  • With Volvo On Call it is now even possible to activate
    the cabin heater remotely via SMS text messaging.

  • Electrically folding rear seat headrests in the V70 and
    XC70.

Other new features on the Volvo C30, S40, V50 and C70

Among the other new features in the 2011 Volvo C30, S40, V50 and C70 line-up
are:

  • The Volvo S40 and V50 now get the same larger iron mark
    as the Volvo C30 and C70. The grille's design is otherwise unchanged.

  • New paint option for the Volvo C30, S40 and V50 -
    Flamenco Red. The Volvo S40 and V50 are now also available in Cosmic
    White and Orange Flame.

  • The range of upholstery in the Volvo S40 and V50 now
    includes a new contrasting leather option with black seat sides, white
    backrest and orange stitching.

  • C70 buyers can now specify optional parking sensors
    front and rear.

  • Cars with Volvo On Call now have the option of
    activating the cabin heater remotely via SMS text messaging.

All the new features in the 2011 model year range will be
available as of the end of May 2010.


Dartz will unveil a golden armored vehicle at Top Marques Abu Dhabi.

Prombron, inspired by James Bond sagas, is “the car with the golden wheels”. The vehicle will be piece of golden armor and it will include golden wheels. Not only wheels will be touched by gold, armored glass will be also coated with gold and all the body of car will be covered by gold snake skin vinyl.

The car will be gold-encrusted armored SUV sporting gold wheels with sculpted 50-caliber bullets. And if these wheels haven’t taken your breath away, get a hold of this. The car will also have a gold tint to its windows and a galvanically-coated gold snake skin vinyl covering the seats. And these aren’t just ordinary seats with an expensive seat cover. These seats are straight out of Boris Yeltsin's Presidential plane.


Dartz golden wheel Dartz golden wheel Dartz golden wheel Dartz golden wheel Dartz golden wheel



Press Release

After unbelievable success at last Top Marques Monaco Show 2010 where DARTZ presented two cars: DARTZ.PROMBRON (ex.RussoBaltique).RED.DIAMOND (full name armored luxury model) and DARTZ.KOMBAT (armored daily driver) company preparing next car to Top Marques Abu Dhabi.

It was very hard to create something new to shock this world again after PROMRBON.RED.DIAMOND.

But...DARTZ did it again!

Next DARTZ luxury armored project - PROMBRON (ex.Russobaltique) promise to be Royal From Royals For Royals.

Yes, DARTZ keep traditions which was born more than 100 years ago when RussoBaltique factory - were DARTZ is located now - start to manufacture luxury coaches and at 1907 opened automotive Department which made Monte Carlo 1912 Rally winner car - RussoBaltique. Since 1912 factory became Russian Tzars Nikolai II Army supplier, made world first four wheel drive car, and since 1914 this 4wheeler became also armored. So - royal blood was in this car from it's birth.

And starting again royal trip from Top Marques Monaco show at 2009 - 100 years after first car left RussoBalt left factory in Riga - PROMBRON (ex.RussoBaltique) successfully continue it together with Top Marques - World One & Only Live SuperCar Show.

Next stop - Top Marques Abu Dhabi - and gold, gold, gold.

Yes, our next car will be piece of golden armor. Last year we released that PROMBRON is real James Bond car for AFganistan - and this year real James Bond - Roger Moor told: "YES! IT IS REAL!"

And inspired of James Bond saga's were Roger Moor was starring - next DARTZ armored car project have long name - THE CAR WITH THE GOLDEN WHEELS. And this golden wheels - of course, of course - will be bulleted.

But not only wheels will be touched by gold - again, like in spaceship - armored glass will be also coated with gold on former soviet space industry factory, and all the car body will be covered by gold SNAKE.SKIN.VINYL. This product was specially created by DARTZ for luxury car coating - as DARTZ is tired from just matte or just carbon vinyl and decide to continue tactile sensitive car coating film serie were was WHALE.SKIN.VINYL and KA$H.FEEL.VINYL. And - specially for this car SNAKE.SKIN.VINYL will be coated with gold at same space industry factory were glasses were coated. And - in difference with galvanic gold coating - DARTZ use nano gold coating which allow not only to coat vinyl deep inside, but also allow to keep "skin" free from dust - which is very important in desert.

Last - but not least. Man in car with the Golden wheels must have Golden Gun. And car owners will have it. Authentic copy of Bolshevik favorite gun Mauser - but made from natural gold.

And - of course, of course, of course.

Question Number One which we left for desert.

Seats!!!

This time they will be more exclusive than You can imagine.

And that won't be anybody's penis.

This will be seats which still remember warm of first Russian Presiden Boris Jeltzin ass.

This will be seats from Jeltzin's airplane.

Original seats from original Russian board N1 which we bought some years ago.

Seats where drunken ass Jeltzin flight to many countries for oficial visits.

So driving CAR WITH THE GOLDEN WHEELS You will be more than Royal from Royals.

In reality we can't find the word as we are russians - and no english synonims to russian expression.

Stay in touch with DARTZ and we promise You to release every month till Top Marques Abu Dhabi new gold toy for our armored baby and it's future customer.


The 2008 Chevy Tahoe Hybrid that made its debut at the tail end of 2007, featuring two-mode hybrid technology optimized for city and highway driving. The first mode allowed the driver to operate the vehicle at low speeds and low loads with the use of electric power only, engine power only or in any combination of engine and electric power. The second mode is used primarily for highway speeds with the advantage of using the full eight-cylinder engine power when the conditions demand it.

The standard Chevrolet Tahoe Hybrid comes with a 6.0 liter V8, producing 332 PS (244 kW) and 498 Nm of torque, coupled to two 60 kW electric motors. The SUV can run solely on electrical power for a limited range, powered by the 300-volt nickel-metal hydride battery. The Tahoe Hybrid also features a cylinder deactivation function which shuts down four of the engine's cylinders when less power is required. All that makes for a fuel economy rating of 21 mpg (11.2 liters/100 km) for this massive SUV, which the Munich-based tuner hopes to improve on.

The GeigerCars Chevy Tahoe Hybrid now goes one step further in terms of economy, packing an LPG system and transforming the ride from two- into a tri-mode full-size SUV. The mounted gas tank has a capacity of 109 liters so that it can travel quite adequate distances. With this feature, the American ride manages to cut the effective fuel costs in half at the current price for LPG, which definitely adds an additional incentive for purchasing the visually appealing Chevrolet Tahoe Hybrid with its great equipment. GeigerCars’ LPG feature is priced at 4,000 Euro including installation tax.


Chevrolet Tahoe Hybrid Tri-mode by GeigerCars Chevrolet Tahoe Hybrid Tri-mode by GeigerCars Chevrolet Tahoe Hybrid Tri-mode by GeigerCars Chevrolet Tahoe Hybrid Tri-mode by GeigerCars Chevrolet Tahoe Hybrid Tri-mode by GeigerCars Chevrolet Tahoe Hybrid Tri-mode by GeigerCars Chevrolet Tahoe Hybrid Tri-mode by GeigerCars


Press Release

GeigerCars.de GmbH - Chevrolet Tahoe Hybrid "Tri-Mode"


With its Chevrolet Tahoe hybrid version, General Motors now offers the perfect synergy of space, eight-cylinder-power and economy. But why should we be content with this if we can get even more economic and environmentally compatible? GeigerCars.de now offers the Tahoe Hybrid even with an LPG system.

With its "two mode" function, the Tahoe saves money even in its ex works condition. On the one hand, the SUV has a 6.0 litre aluminium-V8 for powerful 332 PS at 5,100 rpm and a torque of more than 498 Newton metres at 4,100 rpm. On the other hand, the motor has an automatic cylinder deactivation system to temporarily switch off one bank if it isn't needed to save more fuel. GM's engineers now combined this advanced technology with an electric drive including a regenerative braking system and completely combustion-free starting after stops, making the large Chevy the first serial hybrid SUV ever at the time of its introduction on the market at the end of 2007. With this kind of motor, the hybrid offers a fuel consumption of approx. 11 litres per 100 kilometres ex works, which is a remarkable value in a vehicle of this size and with these luxurious transport capacities.

"Two-Mode" becomes "Tri-Mode"

GeigerCars.de now goes one step further in terms of economy. The US-car-specialist from Munich now also offers the Tahoe Hybrid with an LPG system, turning the Chevy from a "two-mode" vehicle into a "tri-mode" SUV, combining traditional fuel, electric drive and LPG in a single car. Its gas tank can hold 109 litres so that it can travel quite adequate distances. With this equipment, GeigerCars.de even manages to cut the effective fuel costs in half at the current price for LPG. This definitely adds an additional incentive for purchasing the visually appealing Chevy Tahoe hybrid with its great equipment. Geigercars.de charges a fair price of 56,000 Euros for the serial version. The LPG system installed subsequently in Munich, including all ancillary costs, makes for another one-term payment of 4,000 Euros.

Technical Data - GeigerCars.de Chevrolet Tahoe Hybrid "Tri-Mode"

Motor: 6.0-Liter-V8
Performance: 332 PS at 5,100 rpm
Torque: 498 Nm at 4.100 rpm
Gear: four-stage automatic gear shift control system with overdrive
Aluminium wheels in 8 x 18 inch
Tyres: 265/65 R18
109 litres gas tank
Basic vehicle: 56,000 Euro
LPG system: 4,000 Euro

2011 Ford Mustang DUB Edition

发表者 ddgg 5/4/10


Ford announced today that it will produce a Dub Edition of the new 2011 Mustang in collaboration with the well-known DUB magazine.

The Ford Mustang DUB edition will pack 305 HP and 280 ft.-lb. of torque and on the visual enhancements list the car includes 20 inch TIS wheels wrapped in Pirelli performance rubber, the Roush front fascia splitter, lowered suspension springs plus custom quarter window louvers and windshield banner.

Power is provided by a 3.7-liter V6 with 305 hp (227 kW / 309 PS) and 280 lb-ft (379 Nm) of torque. It is paired to a six-speed transmission (manual or a six speed automatic) and a rear axle with a 3.31 gear ratio.

Exterior color choices are limited to Black, Grabber Blue, Race Red or Ingot Silver for the DUB Edition Mustang, each paired with a black interior.

The interior of the 2011 Ford Mustang DUB Edition showcases JL Audio system with two 12-inch subwoofers, amps and speakers and a leather trim.
Source: Ford


Press Release

DUB EDITION 2011 FORD MUSTANG BRINGS UNIQUE STYLE TO NEW GENERATION OF BUYERS

  • 2011 DUB Edition Mustang introduces Ford Mustang to a whole new generation of buyers
  • Based on the new 305-hp Mustang V-6, the DUB Edition will sport 20-inch TIS wheels and Pirelli tires and be available in coupe, convertible and Glass Roof body styles
  • The 2011 Mustang V-6 coupe uses advanced technologies and improved aerodynamics to become the first production vehicle to make 300-plus hp and return 30-plus mpg highway

DEARBORN, Mich., May 3, 2010 - Ford Motor Company is teaming up with automotive lifestyle magazine DUB to roll out a specially customized version of the new 2011 Mustang, introducing the iconic sports car to a new generation of enthusiasts.

The DUB Edition Mustang is based on Ford's outstanding new 3.7-liter V-6 Mustang and will be available this fall. A collaboration between Ford, DUB and Roush Industries, the DUB Edition Mustang will be offered as a coupe, convertible or with the best-of-both-worlds Glass Roof option. Both six-speed manual and automatic transmissions are available.

"The Ford Mustang is the most customized vehicle in the world, and this collaboration pushes the boundaries even further," said Fritz Wilke, Mustang brand manager. "We're proud of our relationship with DUB and Roush and how they worked together to bring a new look to Mustang, helping the 2011 DUB Edition Mustang V-6 appeal to a whole new audience."
Available only with Ford's new high-tech, 305-horsepower DOHC 3.7-liter V-6, the DUB Edition Mustang will offer:

  • 20-inch TIS wheels with Pirelli performance tires
  • Roush front fascia and splitter
  • Roush quarter window louvers and windshield banner
  • Roush lowering springs
  • Coupe, convertible or Glass Roof body style
  • Six-speed manual or automatic transmission
  • 3.31 rear axle ratio for spirited acceleration
  • DUB logo embroidered in front headrest and DUB stripe package
  • Black interior
  • Choice of four exterior colors: Black, Grabber Blue, Race Red or Ingot Silver

"Working with Ford and Roush is an honor and has been a dream come true for DUB," said Myles Kovacs, president and co-founder of DUB magazine. "The Mustang is such an iconic muscle car and has always been a customizer's favorite. The DUB Edition Mustang stays true to its roots, but I think we've successfully brought a ton of hustle to the muscle."

About the 2011 Mustang V-6
For 2011, Mustang is available with a lightweight, all-new high-performance powerplant. Displacing 3.7 liters, the double-overhead-cam (DOHC) 24-valve V-6 uses Ford's Twin Independent Variable Camshaft Timing (Ti-VCT) to produce remarkable power output - 305 horsepower and 280 ft.-lb. of torque - while still achieving up to 31 mpg highway.

Drivers can get the most out of the new V-6 engine using either an all-new six-speed manual or automatic transmission. With either choice comes the flexibility and fuel economy benefit of six forward ratios.

The 2011 Mustang has also received enhancements to its chassis to maintain the outstanding balance and driving behavior Mustang owners expect. Combined with state-of-the-art safety and technology features, the 2011 Mustang sets a new standard in the sports coupe class.


The new tuning package from Prior Design will offer a specially developed chassis set consisting of a buffer with plastics grille, fog lamps, and lateral ventilation openings at the front. Side skirts, a new diffuser-look bumper, tailgate, and roof edge spoilers also come with the package designed to give the vehicle a sportier look. All car parts are made with Duraflex, but can be switched out for carbon at the customer’s request. A stainless-steel 4-pipe sports exhaust is also added to this “still-modern” W211.

The PDW rim set used by Prior-Design is a perfect match for the W211’s sportive look. They are 8.5×20 at the front and 10.5×20 at the rear and, together with the unobtrusive lowering, offer additional visual pleasure. The portfolio also offers the brand-new stainless-steel 4-pipe sports exhaust. At 899.00 Euros, it not only provides the perfect look, but also a great sound experience.

The PRIOR-Design Mercedes-Benz E-Class W211 prices: Front bumper: 599.00 Euro, Fog lamps: 249.00 Euro, Rear Bumper: 599.00 Euro, Side skirts set: 349.00 Euro, Roof edge spoiler: 199.00 Euro, Tail gate spoiler: 199.00 Euro, Set of rims: 1,700.00 Euro (8.5×20 and 10.5×20, plus tyres)


Mercedes-Benz E-Class W211 by Prior-Design Mercedes-Benz E-Class W211 by Prior-Design Mercedes-Benz E-Class W211 by Prior-Design Mercedes-Benz E-Class W211 by Prior-Design Mercedes-Benz E-Class W211 by Prior-Design Mercedes-Benz E-Class W211 by Prior-Design Mercedes-Benz E-Class W211 by Prior-Design Mercedes-Benz E-Class W211 by Prior-Design Mercedes-Benz E-Class W211 by Prior-Design Mercedes-Benz E-Class W211 by Prior-Design



Press Release

PRIOR-Design - Mercedes-Benz E-Class W211

W211 with Prior-ities!

In spite of the generally difficult times, Mercedes achieve remarkable turnover figures for their new E-Class. Its predecessor with the internal name of W211 is still not outdated, though, as Prior-Design's team proves in an impressive fashion with its high-quality attachment parts.

Since the W211 series E-Class is rather rarely seen in the tuning scene, the relevant professional refiners do not offer a great number of accessories, apart from the traditional wheel/tyre-combinations and several chassis lowering options. Prior-Design recognised the W211's success at an early point of time, however, and now offers a complete tuning package for the still-modern saloon car.

The specially developed chassis set consists of a buffer with plastics grille, fog lamps and lateral ventilation openings at the front. A set of side skirts makes for a sportive silhouette. Furthermore, Prior-Design equipped the car's rear with a new diffuser-look bumper, tailgate and roof edge spoilers. With the new attachment parts, the E-Class saloon car is given a truly pleasantly sportive but unobtrusive feel. All parts are made of duraflex, but real-carbon or real-carbon-plated parts can be supplied on the customer's request as well.

The PDW rim set used by Prior-Design is a perfect match for the W211's sportive look. They are 8.5x20 at the front and 10.5x20 at the rear and, together with the unobtrusive lowering, offer additional visual pleasure. The portfolio also offers the brand-new stainless-steel 4-pipe sports exhaust. At 899.00 Euros, it not only provides the perfect look, but also a great sound experience.

The Prices:

Front bumper: 599.00 Euro
Fog lamps: 249.00 Euro
Rear Bumper: 599.00 Euro
Side skirts set: 349.00 Euro
Roof edge spoiler: 199.00 Euro
Tail gate spoiler: 199.00 Euro
Set of rims: 1,700.00 Euro (8.5x20 and 10.5x20, plus tyres)



Maranello, 29 April – Today and in recent weeks, articles have been published relating to the partnership contract between Scuderia Ferrari and Philip Morris International, questioning its legality. These reports are based on two suppositions: that part of the graphics featured on the Formula 1 cars are reminiscent of the Marlboro logo and even that the red colour which is a traditional feature of our cars is a form of tobacco publicity.

Neither of these arguments have any scientific basis, as they rely on some alleged studies which have never been published in academic journals. But more importantly, they do not correspond to the truth. The so called barcode is an integral part of the livery of the car and of all images coordinated by the Scuderia, as can be seen from the fact it is modified every year and, occasionally even during the season. Furthermore, if it was a case of advertising branding, Philip Morris would have to own a legal copyright on it.

The partnership between Ferrari and Philip Morris is now only exploited in certain initiatives, such as factory visits, meetings with the drivers, merchandising products, all carried out fully within the laws of the various countries where these activities take place. There has been no logo or branding on the race cars since 2008, even in countries where local laws would still have permitted it.

The premise that simply looking at a red Ferrari can be a more effective means of publicity than a cigarette advertisement seems incredible: how should one assess the choice made by other Formula 1 teams to race a car with a predominantly red livery or to link the image of a driver to a sports car of the same colour? Maybe these companies also want to advertise smoking! It should be pointed out that red has been the recognised colour for Italian racing cars since the very beginning of motor sport, at the start of the twentieth century: if there is an immediate association to be made, it is with our company rather than with our partner.

Source:Ferrari


For the celebration of 70 years from the Mille Miglia victory in the 19040s in a BMW 328 MM Touring Coupe, BMW has announced a limited edition of the 2010 Z4 sDrive35is Mille Miglia.

To keep this model very exclusive, BMW will only build 99 units, each coming with a Polaris Metallic matte finish, blacked out front grill, an M aerodynamic kit and 19-inch wheels finished in Dark Chrome. The Mille Miglia branding will be displayed both on the inside and outside the Roadster.

The Z4 Limited Edition gets the same upgraded N54 3.0-liter 6-cylinder twin turbo engine with 340hp and 369 lb-ft of torque directing its power through a 7-speed DCT dual-clutch transmission. 0-62mph times are expected to be 4.8 seconds and top speed is limited to 155 mph.

The interior will get leather and Alcantara with red stitching and M sports steering wheel with the same red stitching.

Source: BMW


2010 BMW Z4 sDrive35is Mille Miglia Limited Edition 2010 BMW Z4 sDrive35is Mille Miglia Limited Edition 2010 BMW Z4 sDrive35is Mille Miglia Limited Edition 2010 BMW Z4 sDrive35is Mille Miglia Limited Edition 2010 BMW Z4 sDrive35is Mille Miglia Limited Edition 2010 BMW Z4 sDrive35is Mille Miglia Limited Edition 2010 BMW Z4 sDrive35is Mille Miglia Limited Edition 2010 BMW Z4 sDrive35is Mille Miglia Limited Edition 2010 BMW Z4 sDrive35is Mille Miglia Limited Edition


Press Release

The same passion 70 years on. BMW at the 2010 Mille Miglia.


Munich/Brescia. 70 years ago, the BMW motor racing department had a single aim in mind: the 1st Gran Premio Brescia delle Mille Miglia. A total of five racing cars from Munich had registered for the big event. Preparations did not run entirely smoothly, and ultimately the BMW team very nearly ran out of time. But when the silver BMW racers crossed the finish line in Brescia on 28th April, they accomplished what few had dared hope for: overall victory, team victory and third, fifth and sixth places. That April day saw BMW celebrate its greatest racing triumph so far on four wheels. To this day it epitomises the essence of the brand: "Victory in the 1940 Mille Miglia remains a landmark in the history of the BMW brand. It reflects not only the extraordinary technical expertise but also the passion with which BMW approaches its work," comments Dr Klaus Draeger, member of the BMW Group Board of Management responsible for development, on the significance of the 1940 Mille Miglia. To mark the anniversary of that historic event, BMW Classic has come up with something very special: it has recreated a model that had disappeared from sight for almost 60 years – the BMW 328 Kamm Coupé. This racing car represents a harmonious synthesis of function and aesthetics while at the same time demonstrating just how far BMW had advanced in the development of aerodynamics and lightweight design. "We are very proud to be lining up for the Mille Miglia again 70 years later with this milestone of motor racing history and vehicle aerodynamics," says Karl Baumer, Director of BMW Classic, in delighted anticipation of the unique ride from Brescia to Rome and back

Teams BMW Classic

79 Enzo Ciravolo Maria Leitner BMW 328

80 Maximilian Schöberl Stefan Grundhoff BMW 328

81 Klaus Draeger Joschka Fischer BMW 328

82 Kurt Liedtke Torsten Bursch BMW 328

85 Ian Robertson Phillip Jones BMW 328

86 Torsten Mueller-Oetvoes Greg Kable BMW 328 Frazer Nash

88 Giuliano Cané Lucia Galliani BMW 328 Mille Miglia Coupé

89 Ludwig Willisch Eric Neubauer BMW 328 Mille Miglia Roadster

90 Marcel Botterweck Reiner M. Löslein BMW 328

91 Ulrich Knieps Hans Hamer BMW 328

92 Leopold Von Bayern Adrian Van Hooydonk BMW 328

93 Karl Baumer Dennis Dremmen BMW 328 Kamm Coupé



BMW Private Teams

87 Aldo Bonomi Tarcisio Bonomi BMW 328

84 Richard Croul Massimo Raimondi BMW 328

83 Massimo Ermini Lapo Ermini BMW 328

368 Bernd Werndl Alexandra Schörghuber BMW 507