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Tech Notes: |
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TECH
- FAQ's |
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Valve Timing & Performance -
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If racing is your thing,
or just an automotive enthusiast, then you are most likely not afraid of
swapping camshafts in your engine. However, the trick to making your car
faster is not just replacing the cam, but replacing it with the "right"
camshaft. This is where an understanding of valve timing is important.
To help you better understand this, we will cover three basic terms used
in evaluating the performance of valve timing. |
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Blow Down |
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On the power stroke, the combustion pushes the piston down in the
cylinder. During this stroke, it is necessary to open the exhaust valve
before the piston gets to the bottom of the cylinder. This will allow the
excess pressure in the cylinder to "vent out" just before the piston
reaches the bottom of the stroke. The term "Blow Down" is used to
describe this event.
Timing the exhaust valve in this manner assures no pressure is left in the
cylinder to push against the piston on the exhaust stroke. Otherwise,
there could be 20psi (or so) pushing against the piston as it starts up
the cylinder. This would require some of your engine's power just to push
the exhaust out of the cylinder!
High RPM engines need to have the exhaust valve open sooner so the
pressure has a better chance to exit the cylinder. However, at lower
RPM's, opening the exhaust valve too soon means you didn't take full
advantage of the power stroke. |
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Overlap |
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As the engine cycles, there is a period when both the intake and exhaust
valves are open at the same time. This valve timing is known as
"overlap." Think of this as the exhaust and intake cycles overlapping
each other.
The valves are timed so the intake valve opens slightly before the piston
reaches top dead center (TDC) on the exhaust stroke. Likewise, the
exhaust valve is timed too close just after the piston starts down on the
intake stroke.
The objective of overlap is for the exhaust gas, which is already running
down the exhaust pipe, to create an effect like a siphon and pull a fresh
mixture into the combustion chamber. Otherwise, a small amount of burned
gasses would remain in the combustion chamber and dilute the incoming
mixture on the intake stroke. This valve timing is a product of the cam's
duration and separation spec's. The science involved with overlap is
quite complex. Pressures, runner lengths, temperature, and many other
aspects influence how well the overlap effect works. |
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Ram Effect |
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When the piston reaches the bottom of the cylinder on the intake stroke,
the intake valve doesn't immediately close at this point. The intake
valve remains open even though the piston is starting up the cylinder on
the compression stroke. The expression "ram effect" is used to describe
this event.
Timing the intake valve in this manner allows an additional amount of
fresh mixture to be rammed into the cylinder. The effect is very similar
to water hammer plumbing. What happens is that during the intake stroke,
the fresh mixture is running fast enough down the intake manifold and into
the cylinder, that it cannot instantly stop when the piston stops at the
bottom of the intake stroke. Just like the water hammer effect, the
incoming mixture is rammed into the cylinder even though the piston may be
starting up on the compression stroke.
High RPM engines can have the intake valve remain open longer to take
advantage of this ram effect. However, at low RPM's, the ram effect is
not strong enough, and the piston will start to push the fresh mixture
back out of the cylinder. Of all the different valve timing effects, this
one can have the greatest impact on your engine's performance.
Call our Technical Department for more specific details on different
applications. |
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| As always we look forward to hearing from you with your
product ideas. Fax, call or send an email, (sales@lcengineering.com).
Thanks. LC Engineering, Inc. |
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