Principles of Four-Stroke

1. Introduction
2. Components of a Four-Stroke Engine
3. The Four-Stroke Cycle
   • Intake Stroke
   • Compression Stroke
   • Power Stroke
   • Exhaust Stroke
4. Comparison with Two-Stroke Engines
   • Basic Operation
   • Efficiency
   • Emissions
   • Applications
5. Advantages of Four-Stroke Engines
   • Fuel Efficiency
   • Emissions
   • Durability and Maintenance
6. Technical Diagrams
   • Four-Stroke Engine Diagram
   • Two-Stroke Engine Diagram
   • Stroke Cycle Diagrams
7. Conclusion

1. Introduction

Four-stroke engines are the most common type of internal combustion engine used in automotive applications. This guide will delve into the technical aspects of four-stroke engines, compare them with two-stroke engines, and outline their advantages.

2. Components of a Four-Stroke Engine

A four-stroke engine comprises several key components:

• Cylinder Block: The main structure of the engine, housing the cylinders.
• Pistons: Move up and down within the cylinders to transfer force.
• Crankshaft: Converts the up-and-down motion of the pistons into rotational motion.
• Connecting Rods: Connect pistons to the crankshaft.
• Valves (Intake and Exhaust): Regulate the flow of air-fuel mixture into the cylinder and exhaust gases out.
• Camshaft: Operates the valves at the correct timing.
• Spark Plug: Ignites the air-fuel mixture.
• Fuel Injector/Carburetor: Delivers the fuel-air mixture to the cylinder.
• Timing Belt/Chain: Synchronizes the movement of the crankshaft and camshaft.
• Oil Pump: Circulates oil to lubricate engine components.

3. The Four-Stroke Cycle

The four-stroke cycle consists of four distinct phases: intake, compression, power, and exhaust. Each stroke corresponds to a half turn of the crankshaft, completing a full cycle in two crankshaft revolutions.

Intake Stroke

• Objective: Fill the cylinder with an air-fuel mixture.
• Process: The intake valve opens, and the piston moves down, creating a vacuum that draws in the air-fuel mixture.

Compression Stroke

• Objective: Compress the air-fuel mixture for a more efficient explosion.
• Process: Both intake and exhaust valves are closed, and the piston moves up, compressing the mixture.

Power Stroke

• Objective: Generate power to move the vehicle.
• Process: At the top of the compression stroke, the spark plug ignites the mixture, causing an explosion that forces the piston down.

Exhaust Stroke

• Objective: Expel burnt gases from the cylinder.
• Process: The exhaust valve opens, and the piston moves up, pushing the exhaust gases out of the cylinder.

4. Comparison with Two-Stroke Engines

Basic Operation

• Two-Stroke Engine: Completes a power cycle in two strokes (one crankshaft revolution). It combines the intake and compression strokes into one, and the power and exhaust strokes into another.
• Four-Stroke Engine: Completes a power cycle in four strokes (two crankshaft revolutions).

Efficiency

• Four-Stroke Engine: Generally more fuel-efficient due to better combustion control.
• Two-Stroke Engine: Less fuel-efficient due to the overlap of intake and exhaust processes.

Emissions

• Four-Stroke Engine: Produces fewer emissions as it has a separate exhaust stroke.
• Two-Stroke Engine: Produces more emissions due to incomplete combustion and oil mixing with fuel.

Applications

• Four-Stroke Engine: Common in cars, trucks, and stationary power generators.
• Two-Stroke Engine: Common in motorcycles, chainsaws, and small engines where lightweight and high power-to-weight ratio are essential.

5. Advantages of Four-Stroke Engines

Fuel Efficiency

Four-stroke engines are more fuel-efficient than two-stroke engines because they use the fuel more effectively, thanks to a dedicated compression stroke.

Emissions

Four-stroke engines produce fewer emissions due to more complete combustion and a dedicated exhaust stroke that ensures most of the exhaust gases are expelled from the cylinder.

Durability and Maintenance

Four-stroke engines typically last longer and require less frequent maintenance than two-stroke engines. This is due to the less aggressive operation and better lubrication of engine components.

6. Technical Diagrams

Four-Stroke Engine Diagram

• A detailed cross-section showing the cylinder, piston, crankshaft, camshaft, valves, and spark plug.

Two-Stroke Engine Diagram

• A cross-section illustrating the simplified mechanism of the two-stroke engine, highlighting the combined intake/compression and power/exhaust strokes.

Stroke Cycle Diagrams

• Sequential diagrams depicting each of the four strokes (intake, compression, power, exhaust) for the four-stroke engine.

7. Conclusion

The four-stroke engine is a cornerstone of modern automotive engineering, offering a balance of efficiency, power, and longevity. Understanding the principles of its operation and components is essential for both new and experienced engineers. This guide serves as a comprehensive resource for anyone looking to deepen their knowledge of four-stroke engines.