LAB MANUAL
INTERNAL COMBUSTION ENGINES
AIM:
- Study
of working of four stroke petrol engine and four stroke diesel engine with the
help of cut section models.
DESCRIPTION:
FOUR-STROKE CYCLE ENGINES
• Four Stroke
Petrol engine
•
Four Stroke Diesel engine
FOUR STROKE PETROL ENGINE:-The four
stroke-cycles refers to its use in petrol engines, gas engines, light, oil engine
and heavy oil engines in which the mixture of air fuel are drawn in the engine
cylinder. Since ignition in these engines is due to a spark, therefore they are
also called spark ignition engines.
SUCTION STROKE: In
this Stroke the inlet valve opens and proportionate fuel-air mixture is sucked
in the engine cylinder. Thus the piston moves from top dead
centre (T.D.C.) to bottom dead centre (B.D.C.). The exhaust
valve remains closed
through-out the stroke.
COMPRESSION STROKE: In this stroke both the inlet and exhaust valves remain closed
during the stroke. The piston moves towards (T.D.C.) and compresses the enclosed
fuel-air mixture drawn. Just before the end of this stroke the operating plug initiates a
spark which ignites the mixture and combustion takes place at constant
pressure.
POWER STROKE OR EXPANSION STROKE: In this stroke
both the valves remain closed during the start of this stroke but when the
piston just reaches the B.D.C. the exhaust valve opens. When the mixture is
ignited by the spark plug the hot gases are produced which drive or throw the
piston from T.D.C. to B.D.C. and thus the work is obtained in this stroke.
EXHAUST STROKE: This is the last
stroke of the cycle. Here the gases from which the work has been collected
become useless after the completion of the expansion stroke and are made to
escape through exhaust valve to the atmosphere. This removal of gas is
accomplished during this stroke. The piston moves from B.D.C. to T.D.C. and the
exhaust gases are driven out of the engine cylinder; this is also called SCAVENGING.
Theoretical P-V
diagram of a four-stroke engine
FOUR STROKE DIESEL ENGINE:-
SUCTION STROKE: With
the movement of the piston from T.D.C. to B.D.C. during this stroke, the inlet
valve opens and the air at atmospheric pressure is drawn inside the engine
cylinder; the exhaust valve however remains closed. This operation is
represented by the line 5-1.
COMPRESSION STROKE: The air drawn at atmospheric pressure during the suction
stroke is compressed to high pressure and temperature as the piston moves from
B.D.C. to T.D.C. Both the inlet and exhaust valves do not open during any part
of this stroke. This operation is represented by 1-2.
POWER STROKE OR EXPANSION STROKE: As the piston starts moving from T.D.C to B.D.C, the quantity
of fuel is injected into the hot compressed air in fine sprays by the fuel
injector and it (fuel) starts burning at constant pressure shown by the line
2-3.At the point 3 fuel supply is cut off. The fuel is injected at the end of
compression stroke but in actual practice the ignition of the fuel starts
before the end of the compression stroke. The hot gases of the cylinder expand adiabatically
to point 4.Thus doing work on the piston.
EXHAUST STROKE: The
piston moves from the B.D.C. to T.D.C. and the exhaust gases escape to the
atmosphere through the exhaust valve. When the piston reaches the T.D.C. the
exhaust valve closes and the cycle is completed. This stroke is represented by
the line 1-5.
Theoretical p- V diagram of
a four-stroke Diesel Engine.
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