Featuring a high
pressure common rail injection system and 4v per cylinder valvetrain, the Duramax replaced the long outdated Detroit diesel (2001 - 2004 model years).
The V6 diesel features the latest generation high -
pressure Common Rail direct - injection, «multiple pilot» injection, and piezo - electric injection control, allowing sophisticated management of the injection patterns to make combustion smoother and quieter.
BMW gradually adopted high -
pressure common rail fuel injection systems over the lifetime of the M47.
The D - Max single cab 4 × 4 will be powered by a 134 hp, BSIV compliant, high
pressure Common Rail Fuel Injection Diesel Engine, mated to a robust 5 speed Manual Transmission that delivers a maximum torque level of 320 Nm @ 1800 - 2800 rpm.
[2] Denso claims the first commercial high
pressure common rail system in 1995.
Engine and Performance: This BMW X3 xDrive20d xLine trim is powered by a slightly modified 2.0 - litre diesel engine that has high
pressure common rail direct injection system.
Formulated using technologically advanced chemistry designed to protect the most advanced high -
pressure common rail and conventional systems.
The system includes an electronic high -
pressure common rail fuel injector system that helps maximize fuel economy and a premium low cab - forward design that offers superior visibility and maneuverability.
Not exact matches
(People who are colonized may be carrying millions, if not billions, of bacteria that can easily spread to others, either through direct contact or by touching
common surfaces such as bed
rails, doorknobs and blood
pressure cuffs).
I suspect I have an EFI
common rail injector that fails to hold
pressure and slowly leaks petrol into the manifold when the engine is shut down (and possibly while running).
Today we are going in depth on the warranty extension for
common rail high
pressure fuel pumps HPFP.
So I did change the gasket and after changing and refitting the
common rail, high
pressure fuel pipe, injectors, head cover etc...
CDI is the term that Mercedes uses for their diesels — it stands for
Common -
rail Diesel Injection — and which use the same high -
pressure injection technology.
Common -
rail technology is used for the injection system, two pumps building
pressure up to 2000bar in the
rails.
Many modern systems have a single fuel pump which supplies fuel constantly at high
pressure with a
common rail (single fuel line
common) to each injector.
Common rail electronic injection, where fuel is at high pressure in a common rail and controlled electroni
Common rail electronic injection, where fuel is at high
pressure in a
common rail and controlled electroni
common rail and controlled electronically.
This is mainly due to the
Common Rail system featured by the all - aluminium engine, which operates at a maximum
pressure of 2,000 bar, guaranteeing a particularly accurate supply of fuel.
The most powerful diesel version of the compact BMW X model features a four - cylinder engine with TwinPower Turbo technology and
Common Rail direct injection, the piezoelectric injectors of which operate at a maximum
pressure of 2,000 bar.
The sophisticated power unit engine features high -
pressure common -
rail fuel injection with piezoelectric injectors, a variable nozzle turbine (VNT) turbocharger, a variable swirl system and an uprated engine management system for optimum combustion efficiency.
Sensors in the combustion chambers, a
common -
rail fuel injection system with a delivery
pressure of up to 2,000 bar and a high - performance exhaust gas recirculation system keep untreated exhaust emissions to a minimum.
The
common rail injection system has also undergone further development: it has a maximum operating
pressure of 2,000 bar and can therefore inject fuel in an extremely precise spray pattern.
It features high -
pressure common -
rail fuel injection for maximum efficiency and a variable geometry turbocharger to enhance low - speed driveability while ensuring strong top - end power for the high motorway speeds
common in Europe.
Its
common rail direct injection system operates at a maximum injection
pressure of 1600 bar.
You'll still be able to perceive the mechanical symphony of the high -
pressure,
common -
rail fuel injection, but it's not even remotely similar to crude diesel truck clatter.
With
pressure feedback from each fuel injector instead of using a traditional single
pressure sensor in the
common rail, i - ART makes it possible to continuously monitor and adapt fuel injection per combustion in each of the four cylinders.
As for the 2.0 TDI, the successor to the most successful diesel engine ever, a
common -
rail system providing injection
pressure of 1,800 bar ensures excellent driving refinement.
With 4 valves per cylinder and a variable turbine geometry the
common -
rail direct injection system of the new small diesel engine operates at a maximum injection
pressure of 1600 bar.
Its highlights include the new chain drive layout that includes the two newly developed high -
pressure pumps for the
common rail injection system.
Two more chains drive the oil pump and the two high -
pressure pumps actuate the
common rail injection system.
The injection
pressure in the diesel engines with
common rail direct injection is also higher and fuel is fed to the combustion chambers with even greater precision.
With its all - aluminium power unit, the BMW 740d xDrive boasts BMW TwinPower Turbo Technology as well as
common -
rail direct fuel injection with its piezo - injectors operating at a
pressure of up to 2,000 bar.
The
common rail unit injects the fuel into the combustion chambers at up to 120 bar of
pressure through nozzles located in the side of the cylinder head.
The
common -
rail system generates up to 120 bars of
pressure.
The new engine also benefits from the use of fourth - generation
common -
rail injection with
pressures of up to 2050 bar.
The 2.0 TDI features two balancer shafts in the crankcase, adjustable camshafts and a
common rail injection system delivering maximum
pressure of 2,000 bar.
The 3.0 L diesel engine gets
common rail direct injection with piezo injectors that can achieve an injection
pressure of up to 2,500 bar.
The 2.0 TDI clean diesel features separate cooling circuits, two balancing shafts in the crankcase, a cylinder -
pressure sensor, substantially reduced inner friction and a
common -
rail fuel injection system with a maximum
pressure of 2,000 bar.
The EcoDiesel's fuel pump supplies the engine's 2,000 - bar (29,000 - psi) high -
pressure common -
rail injection system.
The baby Duramax, as it's been lovingly coined by industry analysts, uses a water - cooled, variable - geometry turbocharger and a high -
pressure,
common -
rail fuel system pushing diesel at 29,000 psi.
The 2.0 - liter I - 4 engine's fuel pump supplies the engine's 2,900 - psi high -
pressure common -
rail injection system.
Additional engine features: Iron cylinder block and aluminum DOHC cylinder head Forged steel crankshaft and connecting rods Oiling circuit that includes a dedicated feed for the turbocharger to provide increased
pressure at the turbo and faster oil delivery Piston - cooling oil jets 16.5:1 compression ratio
Common rail direct injection fuel system Ceramic glow plugs for shorter heat - up times and higher glow temperatures Balance shaft that contributes to smoothness and drives the oil pump Laminated steel oil pan with upper aluminum section that contributes to engine rigidity and quietness B20 bio-diesel capability The Duramax 2.8 L is the cleanest diesel truck engine ever produced by General Motors, and meets some of the toughest U.S. emissions standards, thanks in part to a cooled exhaust gas recirculation (EGR) system.
The diesel engine development engineers at Audi have combined an entire package of innovative measures for this latest TDI generation: The piezo
common rail system with an injection
pressure of 2,000 bar, highly efficient exhaust gas recirculation and optimized turbocharging result in significantly reduced raw engine emissions.
A new
common rail system with piezo injectors operating at a
pressure of 2,000 bar, high - efficiency exhaust gas recirculation and further optimised turbocharging join forces to achieve a significant reduction in untreated emissions.
The engine is controlled by a 32 - bit ECU and
common rail injection
pressure is 1,600 bar.
Iron cylinder block and aluminum DOHC cylinder head Forged steel crankshaft and connecting rods Oiling circuit that includes a dedicated feed for the turbocharger to provide increased
pressure at the turbo and faster oil delivery Piston - cooling oil jets 16.5:1 compression ratio
Common rail direct injection fuel system Ceramic glow plugs for shorter heat - up times and higher glow temperatures Balance shaft that contributes to smoothness and drives the oil pump Laminated steel oil pan with upper aluminum section that contributes to engine rigidity and quietness B20 bio-diesel capability.
Pressure in the
common rail injection system has been increased.
However, its
common rail engine (2,500 bar maximum injection
pressure) is equipped with sequential turbocharging.
The
common -
rail system generates up to 2,500 bars of injection
pressure.
Improved combustion efficiency and emissions performance due to a newly adopted two - stage turbocharger, ultra-high
pressure common -
rail system, highly efficient exhaust gas recirculation (EGR), and an exhaust pipe fuel injection system.
By featuring
pressure feedback from each fuel injector instead of using a traditional single
pressure sensor in the
common rail, i - ART makes it possible to continuously monitor and adapt fuel injection per combustion in each of the four cylinders.