HANNOVER MESSE 2019, 01 - 05 April
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Diagnosis in the Combustion Chamber.

Diagnosis to Detect Ultrafine Carbon Black Particles.

Logo Karlsruher Institut für Technologie


Karlsruher Institut für Technologie

Exhibitor details
Exhibitor details
Logo Diagnosis in the Combustion Chamber.

Product description

In modern diesel and Otto combustion engines, fuel is injected at high pressure directly into the combustion chambers of the cylinders in order to optimize consumption. During combustion, fuel-rich zones form directly near the injection jet. In these zones, carbon black formation is inevitable. If the noxious carbon black particles formed mainly in the early phases of combustion will not be combusted later on, they will be released into the environment together with the exhaust gas. Particle filters in diesel vehicles largely prevent particle emission, but increase vehicle costs and fuel consumption. To reduce particle emissions, new engines are subjected to experiments to study the behavior of carbon black under various operation conditions. Scientists involved in the collaborative research center 606 - Unstationary Combustion: Transport Phenomena, Chemical Reactions, Technical Systems - have now developed a measurement method based on laser diagnosis to increasingly replace engine experiments by simulation models. Simulation-based studies save time and costs in engine development. The measurement method is based on two successive laser pulses generating several measurement signals within a ten millionth of a second. In this way, the carbon black concentration, particle sizes, and particle number can be determined two-dimensionally with high spatial and temporal resolution in the combustion chamber of an engine cylinder. According to the laser diagnosis results obtained so far, carbon black formation is more or less pronounced directly above the piston surface. It is mainly caused by pool fires, burning fuel ponds that form as a result of piston wetting by injection shortly before the upper dead center. Slow burn-out of the pool fires and their relatively low temperature result in incomplete combustion of the carbon black particles formed. These are then emitted together with the exhaust gas of the engine. 

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Hall 27, Stand K51

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