Illustration 1 | g06330465 |
Typical example (1) Primary fuel filter (2) Secondary fuel filter (3) Electric transfer pump (4) ECM that is fuel cooled. (5) Fuel Injection Pump (6) Inlet pressure regulator (7) Fuel manifold (rail) (8) Pressure relief valve (9) Electronic unit injector (10) Fuel cooler (optional) (A) Fuel tank |
Fuel is drawn from the fuel tank by an electric fuel transfer pump that is located in the primary and secondary fuel filter base.
When the fuel flows to the primary and secondary fuel filter base, the fuel flows through a primary fuel filter/water separator. From the primary fuel filter/water separator, the fuel flows to the electric fuel transfer pump. From the electric fuel transfer pump, the fuel flows to the secondary fuel filter.
The fuel may flow to a fuel cooled ECM.
The fuel flows from the secondary fuel filter to a pressure regulator. A pressure regulator that is installed in the low-pressure fuel system controls the fuel pressure to the fuel injection pump. The pressure regulator regulates the fuel at an absolute pressure of
From the pressure regulator, the fuel flows to the fuel injection pump. The fuel is pumped at an increased pressure of
Fuel that has too high a pressure from the fuel manifold (rail) returns through the pressure relief valve to the return line. Fuel that is leak off from the electronic unit injectors flows to the return line. The fuel may then flow through an optional fuel cooler on the way back to the fuel tank.
Illustration 2 | g02216334 |
Typical example (1) Fuel injection pump (2) Fuel temperature sensor (3) Suction control valve for the fuel injection pump (4) Pressure relief valve (5) Electronic unit injector (6) Fuel manifold (rail) (7) Fuel pressure sensor (8) Fuel transfer pump |
The fuel injection pump (1) feeds fuel to the high-pressure fuel manifold (rail) (6). The fuel is at a pressure of up to
Components of the Fuel Injection System
The fuel injection system has the following mechanical components:
- Primary filter/water separator
- Electric transfer pump
- Fuel transfer pump
- Secondary fuel filter
- Fuel injection pump
- Fuel injectors
- Fuel manifold
- Pressure relief valve
- Fuel pressure sensor
- Fuel temperature sensor
- Water in fuel sensor
The following list contains examples of both service and repair procedures after which you must prime the system:
- A fuel filter is changed.
- A low-pressure fuel line is replaced.
- The fuel injection pump is replaced.
- The ECM is replaced.
- Draining water from the water separator.
For the correct procedure to prime the fuel system, refer to Systems Operation, Testing and Adjusting, "Fuel System - Prime".
Primary and Secondary Fuel Filter Base
Illustration 3 | g06330435 |
Typical example |
The primary and secondary fuel filter base is supplied loose and is mounted to the application.
The primary and secondary fuel filter base contains the following components:
- Primary filter/water separator
- Electric fuel transfer pump
- Secondary fuel filter
The primary filter/water separator (1) is supplied with water in fuel sensor (4).
The secondary fuel filter (3) is located after the primary fuel filter (1) and the electric fuel transfer pump (2).
Illustration 4 | g02216343 |
Typical example |
The fuel pump assembly consists of a low-pressure transfer pump and a high-pressure fuel injection pump. The pump assembly is driven from a gear in the front timing case at engine speed. The fuel injection pump (1) has three plungers that are driven by a camshaft. The fuel injection pump (1) delivers a volume of fuel three times for each revolution. The stroke of the plungers is fixed.
The injector will use only part of the fuel that is delivered by each stroke of the pistons in the pump. The suction control valve (3) for the fuel injection pump (1) is controlled by the ECM. This valve maintains the fuel pressure in the fuel manifold (rail) at the correct level. A feature of the fuel injection pump (1) allows fuel to return to the tank continuously.
The fuel temperature sensor (2) measures the temperature of the fuel. The ECM receives the signal from the fuel temperature sensor (2). The ECM calculates the volume of fuel.
The fuel injection pump has the following operation:
- Generation of high-pressure fuel
The fuel output of the fuel injection pump is controlled by the ECM in response to changes in the demand of fuel pressure.
The engine shuts off by preventing the electronic unit injectors from injecting. The ECM then closes the suction control valve to prevent the pressure in the fuel manifold (rail) from increasing.
Illustration 5 | g02210619 |
Typical example of the electrical control system for the fuel system (1) Electronic Control Module (ECM) (2) Throttle position sensor (3) Wastegate regulator (4) Fuel rail pressure sensor (5) Inlet manifold pressure sensor (6) Atmospheric pressure sensor (7) Coolant temperature sensor (8) Inlet manifold air temperature sensor (9) Secondary speed/timing sensor (10) Primary speed/timing sensor (11) Fuel injection pump (12) Suction control valve for the fuel injection pump (13) Fuel temperature sensor (14) Electronic unit injectors |
The ECM determines the quantity, timing, and pressure of the fuel to be injected into the fuel injector.
The ECM uses input from the sensors on the engine. These sensors include the speed/timing sensors and the pressure sensors.
The ECM controls the timing and the flow of fuel by actuating the injector solenoid.
The amount of fuel is proportional to the duration of the signal to the injector solenoid.
The ECM controls the fuel pressure by increasing or decreasing the flow of fuel from the fuel injection pump.
Illustration 6 | g02290433 |
Typical example (1) Electrical connections (2) Bolt (3) Clamp (4) Combustion washer (5) O-ring (6) Fuel inlet |
Note: If a replacement electronic unit injector is installed, the correct injector code must be programmed into the electronic control module. Refer to Troubleshooting, "Injector Code - Calibrate" for more information. The code that is required is located at Position (X). Record Code (X) before the electronic unit injector is installed.
The fuel injectors contain no serviceable parts apart from the O-ring seal and the combustion washer. The clamp and setscrew are serviced separately.
When the ECM sends a signal to the injector solenoid, a valve inside the injector opens. The valve allows the high-pressure fuel from the fuel manifold to enter the injector. Fuel is also diverted via the leak-off route to cool and lubricate injector. The pressure of the fuel pushes the needle valve and a spring. The difference in pressure around the needle valve becomes too great, causing the pressure to lift the needle and start injecting.
The timing and duration of injection is controlled by a solenoid valve in the injector. The valve has two positions. In the closed position, the valve closes the inlet to the injector. In this position, fuel above the injector needle is allowed to vent through the leakoff port.
In the open position, the valve opens the inlet to the injector. Simultaneously, the valve closes the leakoff port to allow high-pressure fuel to flow to the needle. When the solenoid valve is closed, some fuel escapes past the valve to vent through the leakoff port. A certain volume of fuel always flows from the leakoff port. If the volume of fuel increases beyond a critical level, the fuel injection pump will not be able to maintain pressure in the fuel manifold.
When the needle valve opens, fuel under high pressure will flow through nozzle orifices into the cylinder. The fuel is injected into the cylinder through the orifices in the nozzle as a fine spray.
When the signal to the injector ends, the valve closes. The fuel in the injector changes to a low pressure. When the pressure drops, the needle valve will close and the injection cycle stops.
The needle valve has a close fit with the inside of the nozzle, making a positive seal for the valve.
The electronic unit injectors can be instructed to inject fuel multiple times during the combustion process. A close pilot injection occurs before the main injection. The close pilot injection helps to reduce NOx and noise. The main injection period helps to increase the torque of the engine. The after injection period helps to reduce the amount of smoke that is produced.
Illustration 7 | g01911496 |
Typical example |
The fuel manifold (2) stores high-pressure fuel from the fuel injection pump. The high-pressure fuel will flow to the injectors.
The fuel pressure sensor (3) measures the fuel pressure in the fuel manifold (2).
The pressure relief valve (1) will prevent the fuel pressure from getting too high.
The fuel pressure sensor must be replaced with the fuel manifold (rail). The pressure relief valve can be serviced as a separate component.