Engine Operation

1. Engine Operation AF115 M. Westerman

2. Events within the four stroke cycle • Intake • Compression • Ignition • Power • Exhaust • Ignition and power are part of the same stroke but are two different events.

3. The Four Stroke Cycle • Intake • Piston begins at top dead center (TDC) • Intake valve is open • Piston is pulled down via the crankshaft • Reduced pressure in the cylinder creates a vacuum that draws air through entire induction system and into cylinder • The amount of fuel/air allowed into cylinder is dependant on throttle position

4. Compression • Starting at bottom dead center (BDC) piston starts to rise again • Intake Valve remains open momentarily, to take advantage of momentum (valve overlap) • As piston approaches TDC two spark plugs ignite mixture • Spark happens before TDC to optimize the burn of the mixture

6. Power • Starting from TDC again with both valves closed • Piston is pushed down by the rapidly expanding fuel/air mix • Temp of gases =3000° F • Pushes cylinder down with a force in excess of 15 tons • Exhaust valve opens before BDC

7. Exhaust • Returning from BDC to TDC • Exhaust valve already open • Exhaust gases leaving cylinder creates an area of low pressure assisting in the intake stroke again • Intake valve opens before TDC to maximize intake of mixture

8. Valve lead and lag • Lead • Valve opens before cycle begins • Lag • Valve closes after cycle has completed

11. Factors Effecting the Power of an Engine • Detonation: the uncontrolled, explosive ignition of the fuel/air mixture

12. Causes • Fuel grade lower than recommended mixed with engine overheating • Ignition timing wrong • Heavy engine load at low RPM • Fuel/air mix too lean

13. Detonation Cont’d… • Effects • High CHT, and pressure • Leads to rough running engine, overheating, and power loss • Cause a hammering or scrubbing action on cylinder and/or piston, which can burn a hole through either in seconds. • Can detect detonation as a knock in the engine • Rough engine procedure? What can you do once you detect a knocking?

14. Preignition • When fuel/air mixture ignites too soon • Causes • Hot spots within the cylinder • Hot spots: carbon particles, overheated valve edges, red hot sparkplug electrode, deposits on sparkplug • Causes • Poor engine cooling • Dirty intake filters • Shutting down engine at high rpm

15. Preignition Cont’d… • Symptoms are similar to detonation • Overheating • Engine roughness • Knock knock • Can happen simultaneously with detonation

16. Backfiring • Excessively lean mix passes into cylinder • Burns extremely slow • Still burning during new intake cycle • Fire spreads throughout induction system

17. Afterfiring • Excessively rich mixture • Raw fuel ends up throughout exhaust system • If hot enough will ignite fuel

19. Other Stuff • Compression Ratio • Ignition timing • Engine speed • More speed= more power • Speed is limited to propeller tip speed, and stress on parts • To operate at high RPM props need to be shortened or geared down

20. Other stuff cont’d… • Altitude • Density altitude up= air density down= engine power down • To overcome high density alt turbo or superchargers are used • Fuel/air ratio • Perfect ratio- 15:1 • To maintain this ratio as altitude increases, mixture controls are used

21. Rich mix runs cool • Lean mix runs hot • Too lean temps drop again

22. Your engine and you • Engine warm-up 800-1000 • Valves need to seat • Oil needs to spread • Need to maintain engine stability throughout warm up- how well does engine run at low RPM? • Idling for long periods can cause? • Temperature check before T/O- Green?

23. Engine won’t start • Prime more? • Flooded start?