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Fuel is injected from a tiny nozzle into a relatively large cylinder, so it has a high latent heat of vaporization, which efficiently cools the air within (in-cylinder cooling effect).
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The air temperature in the cylinder decreases, which means:
In developing the DISI engine, we aimed to cool the
interior of the cylinder as much as possible by promoting fuel
vaporization and uniform mixing of atomized fuel and air. This produces a
high charging efficiency of the air-fuel mixture and a high compression
ratio, which results in significant improvements in both torque and
fuel efficiency.
Characteristics of the direct injection engine:
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(1) more air may be charged into the combustion chamber, which produces increased torque.
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(2) the engine is less prone to knocking. This contributes to increased torque, and enables a higher compression ratio that also contributes to good fuel efficiency.
In a direct injection engine, however, the fuel skips
the waiting period it would have to endure inside a standard engine and
instead proceeds straight to the combustion chamber. This allows the
fuel to burn more evenly and thoroughly. For the driver, that can
translate to better mileage and greater power to the wheels.
In the past, direct injection posed too many
technical hurdles to make it worthwhile for mass market gasoline
automobiles. But with advances in technology and greater pressure to
make cars run more cleanly and efficiently, it looks as if gasoline
direct injection — or GDI as it’s referred to in industry lingo — is
here to stay. In fact, most of the major car manufacturers make or plan
to soon introduce gasoline cars that take advantage of this fuel saving
and performance enhancing system.
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