start
DESCRIPTION
Start. Four Stroke, Two Stroke Diesel, & Wankel Engine Theory and Operation. Four Stroke, Two Stroke, Diesel, & Wankel Theory Presentation Outline. 1.0 Four Stroke Engine Theory Internal combustion principles Valve operation Four cycles Valve timing 2.0 Two Stroke Engine Theory - PowerPoint PPT PresentationTRANSCRIPT
1
Start...
2
Four Stroke, Two StrokeDiesel, & Wankel Engine
Theory and Operation
Four Stroke, Two StrokeDiesel, & Wankel Engine
Theory and Operation
3
Four Stroke, Two Stroke,Diesel, & Wankel Theory
Presentation Outline
Four Stroke, Two Stroke,Diesel, & Wankel Theory
Presentation Outline
1.0 Four Stroke Engine Theory• Internal combustion principles• Valve operation• Four cycles• Valve timing
2.0 Two Stroke Engine Theory• Two cycle operation• Lubrication• Variations• Advantages/ limitations more...
4
3.0 Diesel Engine Theory•Operation•Variations•Advantages/limitations
4.0 Wankel Engine Theory•Operation•Variations•Advantages/limitations
5
1.0 Four Stroke Engine Theory
1.0 Four Stroke Engine Theory
Intake Compression Power Exhaust
6
Intake StrokeIntake Stroke
7
Compression StrokeCompression Stroke
Valves closed
8
Power StrokePower Stroke
Valves closed
9
Exhaust StrokValve Timing Diagram
Exhaust StrokValve Timing Diagram
10
2.0 Two Stroke Engine Theory
2.0 Two Stroke Engine Theory
Up stroke Down stroke
11
Reed Valve
Transfer Port
Carburetor
2 Stroke Up Stroke
Compressionoccurs
CrankCase
12
IntakePowerExhaustOccurs
Transfer Port
Reed Valve
2 StrokeDown Stroke
Carburetor
+
13
Fuel MixFuel Mix
Uses a premix of gas and oil Oil injectors used in some Normal mixes range from 16:1 to 50:1 Typical “hot” engines 16:1 Typical “cool engine” 50:1 CHECK OWNERS MANUAL !!!
14
Advantage of Two StrokesAdvantage of Two Strokes
Runs in any position More horsepower for size Fewer moving parts Lighter
15
Limitations of Two StrokesLimitations of Two Strokes
Uses more fuel than four strokes Fuel and oil must be mixed Plugs foul easily Poor emissions
16
3.0 Diesel Engine Theory3.0 Diesel Engine Theory
17
Introduction• Invented by Rudolf Diesel between
1892 and 1893
• Internal Combustion Engine
• Reciprocating Engine
• Intermittent Combustion Engine
• Utilizes liquid fuel
• Compression Ignition vs. Spark Ignition
• Heavy Duty Applications
18
Diesel Compression RatioDiesel Compression Ratio
20:1 up to 25:1 common Needed to ignite fuel No spark plugs
19
Compression Ratios “Squeeze” on air/fuel mixture before
combustion Efficiency increases with higher CR About 9:1 on gas autos 17:1 to 24:1 for diesel engines About 24:1 CR max:• too high compression for starting• limiting strength of materials• power loss- leakage around valves
20
Advantages of the Diesel Engine
• High reliability• Low fuel cost• High power / lb. of engine• Low fuel consumption • Low fire hazard• High torque at low RPM• Greater heat efficiency- 30% (25% gas)• Longer service intervals
21
Disadvantages of Diesel Power
Disadvantages of Diesel Power
Expensive to repair Hard starting in cold weather Higher initial cost
22
Gasoline and Diesel Engine Comparison
Gasoline and Diesel Engine Comparison
Gasoline power stroke = 460 psi; Diesel = 1200psi
Diesel heat efficiency about 5% higher than gasoline
23
Induction System
High PressureInjection Spray
Injection Line
Injector DeliveringFuel
Air Only
24
Glow PlugsGlow Plugs
Resistance unit to heat cold engines Installed in cylinder head, sometimes in
special pre-combustion chamber Some use intake heaters In addition, block heaters for cold weather
25
Typical Diesel Engine
26
4.0 Wankel Engine Theory4.0 Wankel Engine Theory
27
History of RCE(Rotary Combustion Engines)
History of RCE(Rotary Combustion Engines)
1924 - Wankel’s idea for RCE 1933 - patent was applied 1936 - patent received 1957 - engine runs
28
One of Three Chambers
Apex Seal
SparkPlugs
Rotor
IntakePort
ExhaustPort
Epitrochoidal Bore
29
Rotor and Apex SealsRotor and Apex Seals
Sometimes called a “Rotary Piston”
Receives power impulse from fuel air mixture
Rotor has three faces
Apex seals at tips-like rings
Apex Seal Location
30
Epitrochoidal BoreE-Bore
Epitrochoidal BoreE-Bore
Same purpose as the cylinder walls of the piston engine
Epitrochoid curve, generated by rolling a circle around another circle Basic shape of epitrochoid
curve
31
Rotors
Eccentric
Shaft
E-Bore
32
37
Advantages and LimitationsAdvantages and Limitations
Fewer moving parts Single motion allows smoother
running Compact engine, allows for more
space Few manufacturers produce this
engine any longer
39
Summery (Cont)Summery (Cont)
What are the major differences in parts between a 2 stroke & 4 stroke?• Ports vs. Valves• Reed valve vs. Valves
How is the fuel ignited in a deisel engine?• Compression
40
Summery (Cont)Summery (Cont)
The Rotory (Wankel) engine uses what type of bore?• E- Bore
What act like rings in a rotory engine?• Apex seals
Air can be __________, while water can not?• Compressed
41
The End