5 Types of Diesel Injection systems You need to know

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In this article, we discuss the 5 types of fuel injection systems used in diesel engines.

In this article:

1. Individual Pump System (Jerk Pump)

๐Ÿ”น Diagram

Picture each cylinder with its own small high-pressure pump placed alongside it, directly connected to its respective injector.

๐Ÿ”น Working Principle:

  • The engineโ€™s camshaft drives each plunger upward.
  • This upward movement pressurises the diesel in its delivery chamber.
  • Once pressure reaches a certain point, delivery valve opens and diesel is forced through the high-pressure pipe into the injector, which then atomises the diesel into the combustion chamber.

๐Ÿ”น Application:

  • Large, heavy-duty diesel engines (ships, heavy trucks).
  • Applications where robustness and ease of maintenance are desirable.

๐Ÿ”น Pros:

  • Reliable and simple mechanical components.
  • Durable โ€” can handle heavy workloads.
  • Each cylinderโ€™s delivery is independent.

๐Ÿ”น Cons:

  • Large number of components โ€” more complex to service.
  • Less compact; not lightweight.
  • Less flexible control over injection pressure and timing.

2. Distributor Pump System (Distribution or VE, CAV)

๐Ÿ”น Diagram (concept):

Picture a single rotary pump with a distributor rotor. The rotor internally routes high pressure to each injector in turn.

๐Ÿ”น Working Principle:

  • The drive plate drives a rotating plunger.
  • The plunger pressurises the diesel.
  • The distributor then directs high pressure to each cylinderโ€™s injector in the correct sequence.

๐Ÿ”น Application:

  • Smaller diesel engines (light trucks, buses).
  • Automotive applications where space and simplicity are desirable.

๐Ÿ”น Pros:

  • Compact, lightweight, cost-effective.
  • Few moving components.
  • Reliable delivery under medium-load conditions.

๐Ÿ”น Cons:

  • Limited pressure delivery (lower than unit or common rail).
  • Less flexible for sophisticated injection strategies.
  • May struggle under heavy-load or high-demand conditions.

3. Unit Injector System

๐Ÿ”น Diagram (concept):

Picture each cylinder with its own pump and injector integrated together in a single unit โ€” typically placed directly into the cylinder head.

๐Ÿ”น Working Principle:

  • The engineโ€™s camshaft directly drives the plunger within each injector.
  • This generates high pressure directly at the injector.
  • The delivery valve then opens, spraying diesel into the combustion chamber.

๐Ÿ”น Application:

  • Large diesel engines (trucks, buses).
  • Applications requiring high pressure, simplicity, and robustness.

๐Ÿ”น Pros:

  • Precise delivery; high injection pressure.
  • Few components โ€” high robustness.
  • Reliable under heavy-load conditions.

๐Ÿ”น Cons:

  • Requires specialized maintenance.
  • Higher production and repair costs.
  • Limited ability to respond to electronic controls (compared to Common Rail).

4. Unit Pump System

๐Ÿ”น Diagram (concept):

Picture each cylinder with its own high-pressure pump, connected by a short high-pressure pipe to its respective injector.

๐Ÿ”น Working Principle:

  • The separate pump generates pressure.
  • This pressure is routed through delivery lines to each injector.
  • Injection occurs when pressure reaches a set point.

๐Ÿ”น Application:

  • Large heavy-duty diesel engines.
  • Applications requiring high pressure with flexible delivery.

๐Ÿ”น Pros:

  • Reliable delivery under heavy-load conditions.
  • Flexible โ€” separate pump from injector for ease of maintenance.
  • Better pressure control than distributor pump.

๐Ÿ”น Cons:

  • Higher complexity.
  • Large number of components.
  • Requires careful maintenance to avoid pressure drop.

5. Common Rail Injection System

๐Ÿ”น Diagram (concept):

Picture a high-pressure rail (fuel accumulator) connected to each injector. The rail maintains high pressure at all times.

๐Ÿ”น Working Principle:

  • A high-pressure pump maintains pressure in the rail.
  • Each injector is controlled by a solenoid valve.
  • The engine control unit (ECU) signals when to release fuel into the cylinder.

๐Ÿ”น Application:

  • Modern diesel engines โ€” from small cars to heavy-duty trucks.
  • Applications requiring high power, low emissions, and sophisticated control.

๐Ÿ”น Pros:

  • Precise control of injection pressure, duration, and number of events.
  • Flexible delivery for optimizing performance and emissions.
  • Higher pressure (typically up to 2000 bar or greater).

๐Ÿ”น Cons:

  • Higher complexity and cost.
  • Requires sophisticated electronic controls.
  • Maintenance and repairs can be more expensive.

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