3232853 - 1080B exhaust emission control system
Lambda sensor
It is mounted on the front section of the exhaust pipe, and it informs the control unit about the combustion trend (stoichiometric ratio).To obtain an optimum mixture, the quantity of air drawn in by the engine is the same as the theoretical quantity that would be needed to burn all the injected fuel.In this case the Lambda factor (?), the ratio between the quantity of air drawn in and the theoretical quantity of air (needed to burn all the injected fuel), is 1.Thus:
- ? = 1 ideal mixture
- ? > 1 lean mixture
- ? < 1 rich mixture
a, Rich mixture (too little air)b, Lean mixture (too much air)The Lambda probe, placed in contact with
the exhaust gases, generates an electrical signal whose voltage depends
on the concentration of oxygen present in the gases.This voltage undergoes a sudden variation
when the composition of the mixture moves away from ? = 1.
1, Ceramic body
2, Protective tube
3, Metal body
4, Electrical resistor
A, Ceramic inner part
B, Ceramic outer part
For operating checks.
See Test 1080B Checking Lambda sensor
Catalytic converter
The three-way catalytic converter simultaneously reduces the three polluting gases present in the exhaust gases:
- unburnt hydrocarbons (HC);
- carbon monoxide (CO);
- nitrogen oxides (NOx).
Two types of chemical reactions take place in the converter:
- oxidation of the CO and HC, converted into carbon dioxide (CO2) and water (H2O)
- reduction of the NOx converted into nitrogen (N2).
1, Ceramic monolith
2, Metal support
3, Outer casing
4, Perforated plate metal cone
The noble metals contained in the catalytic converter, because of the high temperature, are chemically attacked if lead is present.For this reason the use of petrols containing lead should be avoided, otherwise the converter will be quickly and irreversibly damaged.Never use petrol containing lead, not even in an emergency or for a very short time. |
CONSTRUCTION FEATURES
Lambda probe
Of the 'planar' type, it is mounted on the front section of the exhaust pipe, and it informs the control unit about the combustion trend (stoichiometric ratio). The electronic control unit identifies the composition of the mixture (rich or lean) from the Lambda sensor output voltage.It adjusts the quantity of fuel injected to ensure the optimum composition of the mixture (l = 1) to create the ideal conditions for the treatment of the exhaust gases in the catalytic converter.If the mixture is too rich (lambda less than 1), then the quantity of fuel should be reduced and, if the mixture is too lean (lambda greater than 1), then the quantity of fuel should be increased.
a, Rich mixture (lack of air)
b, Weak mixture (too much air)
The Lambda sensor, placed in contact with
the exhaust gases, generates an electrical signal whose voltage depends
on the concentration of oxygen present in the gases.This voltage is characterized by a sudden
change when the composition of the mixture moves away from Lambda
= 1.The heating of the Lambda sensor is managed
by the fuel injection control unit in relation to the exhaust gas temperature.This avoids thermal shocks on the ceramic
casing due to the contact with condensed water, present in the exhaust
gases when the engine is cold.The measuring cell and heater are built
into the 'planar' (stratified) ceramic element, with the advantage
of obtaining quick heating of the cell, thus permitting a closed
loop' check (Lambda = 1) within 10 seconds of engine start-up.
1, Connecting cable
2, Protective sleeve
3, Planar sensor element
4, Ceramic tube casing
5, Probe seating
6, Ceramic seal
7, Protective tube
The operation of the Lambda sensor is based
on the principle of an oxygen concentration cell with solid electrolyte.The surfaces of the measuring cell are coated
with microporous layers of noble material.
1, Exhaust gases
2, Passage of reference air
3, Heater
4, Lambda sensor voltage
Catalytic converter
The three-way catalytic converter simultaneously reduces the three polluting gases present in the exhaust gases:
- unburnt hydrocarbons (HC);
- carbon monoxide (CO);
- nitrogen oxides (NOx).
Two types of chemical reactions take place in the converter:
- oxidation of the CO and HC, converted into carbon dioxide (CO2) and water (H2O)
- reduction of the NOx converted into nitrogen (N2).
1, Ceramic monolith
2, Metal support
3, Outer casing
4, Perforated plate metal cone
The noble metals contained in the catalytic converter, because of the high temperature, are chemically attacked if lead is present. |