Why do
Engines Lean Out and Quit?
1) The high-speed needle valve is too lean.
2) The muffler pressure line came off.
3) The fuel filter has opened up (the halves are loose).
4) There s a split in the fuel line, usually at the fuel tank.
5) The fuel tank is foaming, causing air bubbles in the fuel line.
Setting
a slow, reliable idle
A month seldom goes by in which I don't receive letters from readers experiencing
idle problems. As this seems to be a common problem, let s take a look at setting
up an engine's idle. It is' t really all that difficult. To start with, many
idle problems with non-pump equipped engines can often be traced to an improperly
positioned fuel tank or a fuel tank that is too far from the engine. The centerline
of the fuel tank should never be any higher than the centerline of the fuel
jet and preferably 1/4 to 3/8 inches below. This helps decrease the siphoning
action with a full tank of fuel. The make of the glow plug also plays an important
role. Any older design, cross-flow scavenged (ported) two stroke engine should
use an idle bar glow plug. Most of the newer Schnuerle ported two-stroke engines
do not require an idle bar plug, but if idle problems are experienced, an idle
bar plug should be used. If you aren't sure whether the engine is cross-flow
or Schnuerle ported, just look into the exhaust. If there is a baffle on the
far side of the piston, the engine is cross flow ported. If there is no baffle,
it is Schnuerle ported. Some engines do have better idle characteristics than
others due to differences in porting, timing, and compression ratio, When it
comes to the actual adjustment, there are two basic methods. The first is to
start with the fuel tank half full and the idle speed set in the 2,500 - 2,700
rpm range. This is where a good tachometer comes in handy and is something every
toolbox should contain, not just for setting idle speed but for proper richening
of the top end as well. Then, use the pinch test (i.e. pinch the fuel line).
If the engine dies immediately, the idle mixture is too lean and needs to be
opened in 1/8-inch increments. If the engine speeds up and the idle improves,
the mixture is too rich and the adjustment should be turned in or leaned. If
the engine is cowled in and the fuel line to the carburetor is not easily accessible,
with a tricycle gear ship, lower the tail. If the engine dies immediately, the
mixture is too lean. If the idle improves, the mixture is too rich. Remember
to always make any idle mixture adjustments in 1/8--turn increments not one
or two turns at a time.
With a tail-dragger, make the mixture adjustments with the tail raised to a
level position, being careful not to go so high as to have the propeller hit
the ground. Then, lower the tail following the same procedure as with the tricycle
gear model. For the final check, accelerate the engine to full throttle. If
it slows and sags and has a weak sound, the mixture is too lean and needs richening.
If the engine sputters and spits out a lot of smoke, the mixture is too rich
and should be leaned. After a satisfactory idle and acceleration have been established,
you can try lowering the idle speed to the point where the engine will remain
idleing for a prolonged period with good acceleration to full throttle. Again,
the idle speed should be set with a tachometer and not by ear. Many cases of
an engine dying at idle are simply because of pilots who try to idle the engine
too slow. It is nice to watch an engine tick over at 1,800 rpm, but an idle
speed in the 2,200 - 2,500 rpm range is more practical and reliable. Also remember,
the heavier the propeller and the larger the diameter, the better the flywheel
action. Increased flywheel action is always beneficial to a slow and reliable
idle.
From Prop Talk
Riverside Radio Control Club
Jim Bronowski, editor
Riverside CA