EOM232.02

Engine Components

Valves and Combustion

Ignition and Fuel Systems

Rotary Vs Radial Engines

Engine Arrangements

100

In which engine component does the air-fuel mixture burn?

Cylinder

100

Which valve allows the air-fuel mixture to enter the cylinder?

Intake valve

100

What device ignites the fuel mixture?

Spark plug

100

Which engine type has rotating cylinders and a stationary crankshaft?

Rotary engines

100

What is the most common engine arrangement used in general aviation aircraft today?

Horizontally Opposed Engines

200

Which engine part directly converts the force of combustion into mechanical motion?

Piston

200

Which valve opens to release burned gases after combustion?

Exhaust valve

200

Why do most aircraft engines use two spark plugs per cylinder?

Improved reliability and more complete combustion

200

Which engine type has stationary cylinders and a rotating crankshaft?

Radial engines

200

How are the cylinders arranged in an in-line engine?

In a single row from front to back

300

Which component allows the piston’s up-and-down motion to be transferred to the crankshaft?

Connecting rod

300

During which part of engine operation must both valves be closed?

Combustion

300

Why must the spark occur before the piston reaches Top Dead Center? (TDC)

Because fuel takes time to burn completely

300

Which engine type was commonly used during World War I?

Rotary Engine

300

How are cylinders arranged in a horizontally opposed engine?

Two flat banks directly opposite each other

400

Which two engine components work together to convert reciprocating motion into rotary motion?

Connecting rod and crankshaft

400

Why must the intake valve close before the fuel-air mixture is ignited?

To seal the cylinder so pressure can build during combustion

400

What is the role of the distributor in a multi-cylinder engine?

To deliver spark to each cylinder at the correct time

400

Why did the rotating mass of a rotary engine affect aircraft handling?

Gyroscopic forces interfered with turning

400

Why does the flat shape of a horizontally opposed engine reduce form drag?

There is less air resistance

500

If the camshaft stopped turning but the crankshaft continued to rotate, which engine function would fail?

Valve operation (intake and exhaust opening and closing)

500

What would happen to engine power if the exhaust valve opened too early?

Loss of pressure and reduced engine power

500

Why does an engine with independent ignition systems continue running if one system fails?

Each cylinder has its own timing and spark delivery system?

500

Based on design alone, why were radial engines more suitable than rotary engines for larger aircraft?

Radial engines avoided heavy rotating cylinder mass while still allowing many cylinders

500

Why did horizontally opposed engines replace in-line engines in most small aircraft?

Reduced form drag and improved aerodynamic efficiency