2750918 - 1080C exhaust gas recirculation system (e.g.r.)
This system directs a proportion of exhaust gases (5 - 15%) to the intake under certain service conditions. This lowers the temperature peak in the combustion chamber to reduce the formation of nitrogen oxides (NOx).The E.G.R. valve (1) is controlled by the fuel injection control unit (2), and carries out the function of re-injecting into the engine intake some of the exhaust gases drawn from the exhaust manifold (4). A heat exchanger (3) allows the partial cooling of the exhaust gases, further lowering the temperature in the combustion chamber.1 - E.G.R. valve
2 - Fuel injection control unit
3 - Heat exchanger
4 - Exhaust manifold
5 - Air inlet manifold
The fuel injection control unit, with coolant
temperature > 20° C and engine speed of between 800 and 3000
rpm, drives the E.G.R. solenoid with a square-wave signal.
The change in this signal allows the EGR coil to move a plunger and thus adjust the flow of burnt gases from the exhaust manifold to the intake manifold; two results are thus obtained:
- less air is introduced;
- combustion temperature is reduced (due to the presence of inert gases) to reduce NOx (nitrogen oxide) production.
E.G.R. SOLENOID VALVE
The Pierburg EGR valve fitted on the cylinder head modulates the flow of exhaust gas to the intake according to a command received from the injection control unit.Modulation takes place via an internal solenoid controlled in PWM by the control unit, which operates the control rod from the internal valve which, when open, conveys the gases into the inlet manifold.A - E.G.R. valve body
B - Gas inlet from exhaust manifold
C - Gas outlet to inlet manifold
1 - Solenoid positive
5 - Solenoid negative