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Different particulate filter systems with an electrical heating for starting the filter regeneration were designed and tested to evaluate the parameters important for a successful filter and heating device layout. These results led to a new filter system with an improved electrical heating module. Particular emphasis was put on a modular design which allows a separate optimization of the different system parts with regard to function, durability and costs. In this paper the different development steps are presented. Experimental results show the performance and limitations for electrically heated particulate traps. The analysis of the experiments was done on the one hand by using data such as temperatures, pressures and exhaust gas composition during the regeneration. On the other hand the assessment of the regeneration rate was done by weighing the filter and optically with non-destructive and partly destructive methods.

A particulate trap with combined regeneration has been developed for use in light duty vehicles with diesel engines. This new system was tested first on an engine test rig. On-road vehicle tests are going on since August 1998. The results obtained clearly demonstrate the feasibility of this system. With this system trap regeneration has to be ensured under worst case conditions (exhaust gas temperature<400° C). To meet this requirement electrical heating in combination with a fuel-borne catalyst is applied. Different filter materials such as cordierite wall flow and silicon carbide monoliths were tested on the engine test rig. The paper reports on results from the engine test rig as well as from on-road vehicle testing. An overview about pre-heating and regeneration examples are given and energy balances are presented.