Variable displacement
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Variable displacement is an automobile engine technology that allows the engine displacement to change, by deactivating cylinders, for improved fuel economy. The technology is primarily used in large, multi-cylinder engines. Many automobile manufacturers have adopted this technology as of 2005, but it is not a new concept. Most variable displacement systems work by turning off a bank of cylinders in a V engine, but the initial systems worked differently.
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[edit] Theory of operation
Cylinder deactivation is used to reduce the fuel consumption and emissions of an engine during light load operation. In typical light load driving driver uses only around 30 percent of an engine’s maximum power. In these conditions, the throttle valve is nearly closed and the engine needs to work to draw air. This causes an inefficiency known as pumping loss. Some large capacity engines need to be throttled so much at light load that the cylinder pressure at top dead centre is approximately half that of a small 4 cylinder engine. Low cylinder pressure means low fuel efficiency. The use of cylinder deactivation at light load means the throttle valve can be opened further to provide the same power output. This reduces pumping losses and increases pressure in each cylinder. Fuel consumption can be improved by around 20 percent in highway conditions.[1]
Cylinder deactivation is achieved by keeping the intake and exhaust valves closed for a particular cylinder. By keeping the intake and exhaust valves closed, it creates an ‘air spring’ in the combustion chamber – the trapped exhaust gasses (kept from the previous charge burn) are compressed during the piston’s upstroke and push down on the piston during its downstroke. The compression and decompression of the trapped exhaust gasses have an equalising effect – overall, there is virtually no extra load on the engine. In the latest breed of cylinder deactivation systems, the engine management system is also used to cut fuel delivery to the disabled cylinders. The transition between normal engine operation and cylinder deactivation is also smoothed using changes in ignition timing, cam timing and throttle position (thanks to electronic throttle control). In most instances, cylinder deactivation is applied to relatively large displacement engines that are particularly inefficient at light load. In the case of a V12, up to 6 cylinders can be disabled.[1]
Two issues to overcome with all variable displacement systems is the unbalanced cooling and vibration of variable-displacement engines.
[edit] History
[edit] Cadillac L62 V8-6-4
The technology, first experimented with during WWII,[2] was pioneered in 1981 on Cadillac's ill-fated L62 "V8-6-4" engine. The technology was made a standard feature on all Cadillac models except Seville. Cadillac’s in conjunction with Eaton Corporation developed the innovative V-8-6-4 system which used the industry's first ECU to switch the engine from 8-to-6 to-4 cylinder operation depending on the amount of power needed.[2] The original multi-displacement system turned off opposite pairs of cylinders, allowing the engine to have three different configurations and displacements. But the system was troublesome, a rash of unpredictable failures led to the technology being quickly retired.[2]
[edit] Mitsubishi MD
One year later, in 1982 Mitsubishi developed its own variable displacement in the form of MD (Modulated Displacement) which proved that the technology, first used in Mitsubishi's 1.4 L 4G12 straight-4 engine, can function successfully. [3] Because Cadillac's system proved to be a failure, Mitsubishi hailed their own as the world's first.[4] The technology was later used in Mitsubishi's V6 engines.[5] In 1993, the MIVEC-MD variant was introduced. In MD mode, the MIVEC engine utilizes only two of its four cylinders, which reduces significantly the energy wasted due to pumping losses. In addition, power loss due to engine friction is also reduced.[4] Depending on conditions, the MIVEC-MD system can reduce fuel consumption by 10–20 percent.[5]
[edit] Present
No automaker attempted the same trick again until Mercedes-Benz experimented with their Multi-Displacement System V12 in the late 1990s. It was not widely deployed until the 2004 DaimlerChrysler Hemi. Other systems appeared in 2005 from GM (Active Fuel Management in the Generation IV small-block) and Honda (Variable Cylinder Management on the J family engines). Honda's system works by deactivating a bank of cylinders, while the Chrysler Hemi shuts off every other cylinder in the firing order.
[edit] Variable displacement technologies
- General Motors V8-6-4 (Cadillac)
- General Motors Cadillac Sixteen (Cadillac)
- General Motors Active Fuel Management
- DaimlerChrysler Multi-Displacement System (MDS) (for Chrysler)
- DaimlerChrysler Active Cylinder Control (ACC) (for Mercedes-Benz)
- Honda Variable Cylinder Management (VCM)
[edit] See also
[edit] References
- ^ a b "Cylinder Deactivation Reborn - Part 1", Autospeed, Issue 342, Michael Knowling
- ^ a b c "Cylinder deactivation", Automotive Industries, Jan, 2005, John Peter
- ^ "Mitsubishi Motors Web Museum", Mitsubishi Motors website
- ^ a b "Mitsubishi Motors History", Mitsubishi Motors South Africa website
- ^ a b "Mountain of MIVECs", Michael Knowling, AutoSpeed, Issue 346, September 3, 2005
