SL 600 (129.076) V12-6.0L (120.983) (1997)
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- Idle speed control: In idle and depending on the coolant temperature the idle speed is increased to 1150 to 1500 rpm.
- Transmission shift delay: Coolant temperature dependent, is later upshifted on automatic transmission.
- Air injection After starting and during warm-up, the enriched mixture results in more unburned hydrocarbons in the exhaust. The injected air causes
post-oxidation in the three way catalytic converter. This results in the release of heat that brings the three way catalytic converter quickly to operating
temperature.
GF49.10-P-3002-01F Three-Way Catalyst Function
GF49.10-P-3002-01F Three-way Catalyst Function
The exhaust gases flow through the catalytic converter and, in so doing, come into contact with the rare metals (platinum, rhodium). Due to oxidation,
carbon monoxide (CO) is converted into carbon dioxide (CO2) and hydrocarbons (HC) are converted into water (H2O) and carbon dioxide. As a result
of reduction the nitrogen oxides (NO(x)) are converted into nitrogen (N2) and carbon dioxide.
The critical factors for the conversion of the pollutants is the residual oxygen content in the exhaust. This is determined by the lambda control.
Operating conditions
As is the case for the O2 sensor, the operating temperature also plays a very important role in the case of the catalytic converter. Appreciable conversion
of the pollutants does not commence until an operating temperature of approx. 250 degrees C. The following functions interact in order to rapidly reach
this temperature after a cold start:
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Ignition system
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Idle speed control [ISC]
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Transmission shift delay
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Secondary air injection
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Insulation of exhaust manifold and front exhaust pipes.
Ideal operating conditions for high conversion rates and a long life prevail at temperatures between around 400 to 800 degrees C. The temperature of the
three way catalytic converter can increase beyond 1400 degrees C due to a malfunctioning of the engine such as misfiring etc. Such temperatures destroy
the catalytic converter by melting the ceramic monolith.
Another requirement for reliable long-term operation is that only unleaded fuel be used. Lead compounds form a deposit on the active surface and
prevent the exhaust gases from coming into contact with the catalytic layer.
In view of its property of simultaneously reducing three pollutant components, it is known as a three-way catalytic converter.
GF49.10-P-3002-02F Three-Way Catalyst Design
GF49.10-P-3002-02F Three-way Catalyst Design
