Why do diesel engines use compression?
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Why do diesel engines use compression?
Higher compression also makes the fuel burn more completely, releasing more energy because diesel fuel yields a higher energy density. Also, a diesel’s unique ability to inject fuel for a longer portion of the power stroke helps create a higher average cylinder pressure than a comparable gasoline engine.
Why do diesel engines not use spark plugs?
Diesel engines, unlike gasoline engines, do not use spark plugs to induce combustion. Instead, they rely solely on compression to raise the temperature of the air to a point where the diesel combusts spontaneously when introduced to the hot, high pressure air. The glow plug solves this.
How does diesel ignite in the engine?
A diesel engine takes air, compresses it, and then injects fuel into the compressed air. The heat of the compressed air ignites the fuel spontaneously. The higher the compression ratio, the more power generated.
What is the compression pressure of diesel engine?
Diesel engines have no spark plugs to ignite the fuel. In the cylinder, the pressure is so great the temperature is very high. The pressure is so great (16:1 or 234 psi) that the temperature becomes high enough to ignite the fuel without a spark plug.
How do diesel engines ignite?
A diesel engine takes air, compresses it, and then injects fuel into the compressed air. The heat of the compressed air ignites the fuel spontaneously. A diesel engine does not contain a spark plug. Diesel engines use direct fuel injection i.e. diesel fuel is injected directly into the cylinder.
Can petrol ignite from compression?
Gasoline is designed to readily evaporate into air and not to ignite during compression in the engine cylinder. Air is compressed in the diesel engine cylinder before the fuel is injected so there can be no preignition.
What is the compression ratio of compression ignition engine?
A compression ignition engine working on the ideal dual combustion cycle has a compression ratio of 16:1. The pressure and temperature at the beginning of compression are 98 kN/m2 and 30°C respectively. The pressure and temperature at the completion of heat supplied are 60 bar and 1300°C.