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Purging

Purging


The illustration shows a system with vapour recirculation (ORVR) and tank integrity diagnosis.

The fuel that evaporates in the tank passes through a pipe to the EVAP canister. The active charcoal in the EVAP canister will eventually become saturated as it absorbs the hydrocarbon vapour. When the engine is started, the surrounding air is drawn through the EVAP canister via a purge valve and a nonreturn valve in the intake manifold. The petrol vapour is drawn with the air and burned in the engine. When the pressure in the intake manifold exceeds the atmospheric pressure, another nonreturn valve opens and purging will now take place to the suction side of the turbocharger.

With zero current, the purge valve is closed. It is powered from the main relay valve and controlled with a 16 Hz PWM from control module pin 27, 8 Hz during tank integrity diagnosis.

The pulse ratio regulates the flow so that it always constitutes a specific proportion of the total flow consumed by the engine.

If the air/fuel ratio in the flow deviates from 14.7:1, the closed loop will be affected. However, it is not the task of closed loop to correct for the excess caused by the purge so the purge has a correction factor that is affected by the closed loop as soon as the purge starts. The entire closed loop deviation from 1.00 is transferred to the purge correction factor, which means that closed loop fluctuates around 1.00 (0%) even if the purge contains large amounts of hydrocarbons or consists of pure air.

When purging is not active the factor 1.00 is used and the entire fuel fault is corrected by the closed loop along with the multiplicative and additive adaptation.

The limits for purge adaptation are 0.75 and 1.25 respectively.


The following conditions must be fulfilled before purging can be activated:




Closed loop active.

No fuel adaptation in progress; this takes place for 30 seconds every 5 minutes.

Engine coolant temperature exceeds 50°C.

If the engine coolant temperature is below 5°C when the engine is started, the vehicle speed must exceed 10 km/h.

The function is active during the whole driving cycle and reduces the risk of noise being heard from the valve. The valve makes more noise when it is cold.

Battery voltage below 16V.

Tank integrity diagnosis not active.

Engine speed exceeding 770 rpm.


The diagnostic tool shows 25% when the correction factor is 1.25 and -25% when the correction factor is 0.75.

Diagnostics


If there is an open circuit or short circuit to ground, diagnostic trouble code P0444 will be generated.

If there is a short circuit to B+, diagnostic trouble code P0445 will be generated.

If there is an internal leak in the valve, diagnostic trouble code P0441 will be generated.

Note

Purge adaptation can lead to problems when conducting fault diagnosis of the fuel system as closed loop can fluctuate around 0% despite major faults such as air leaks. By connecting an LED instead of the purge valve and reading the purge adaptation with the diagnostic tool while purging is active, the reading will indicate the entire fuel fault on condition that the multiplicative and additive adaptations have been zeroed first.



Integrity diagnosis


The on-board diagnostics must be able to detect a leak in the purge system corresponding to a hole with diameter 1 mm.

For this reason, there is a differential pressure sensor fitted to the tank and a shut-off valve on the EVAP canister atmospheric connection. When the shut-off valve is closed, it should be possible to create and maintain a vacuum in the tank using the purge valve. Otherwise, the system is leaking and a diagnostic trouble code will be generated. The diagnosis is performed once per driving cycle.

The pressure sensor is powered with 5V from control module pin 46 and grounded from control module pin 70.

The pressure sensor delivers a voltage to control module pin 59 that is proportional to the difference between the pressure in the tank and atmospheric pressure.

The pressure sensor value is adapted to 0 kPa at ignition on provided the engine coolant temperature is under 40°C and the fuel level is below 50 litres.

The shut-off valve is open in a zero current state. It is powered from the main relay and is controlled from control module pin 37.

Diagnostics


Pressure sensor


If the sensor voltage is too low, diagnostic trouble code P0452 will be generated.

If the sensor voltage is too high, diagnostic trouble code P0453 will be generated.

If the pressure value is implausible, diagnostic trouble code P1451-P1453 will be generated.


System reaction to a fault


Integrity diagnosis is blocked.

Fuel adaptation and purging blocked on P1452.


Close valve


If there is an open circuit or short circuit to ground, diagnostic trouble code P1444 will be generated.

If there is a short circuit to B+, diagnostic trouble code P1445 will be generated.


System reaction to a fault


Fuel adaptation and purging are blocked.


Integrity


A very minor leak will generate DTC P0456.

A minor leak will generate DTC P0442.

A major leak will generate DTC P0455.