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Honeycomb based diesel particulate filters have proven to be extremely effective in the removal of diesel soot. Under certain conditions, involving heavy soot loads and a shift of the engine into the idle mode during the early stages of the regeneration process, the current designs of cordierite filters have shown some tendency toward partial melting. A brief review of the SAE literature is presented, indicating that the temperatures reached during regeneration decrease substantially as the bulk heat capacity of the filter increases. Analysis of these literature data indicates that the top temperatures experienced during regeneration can be decreased by hundreds of degrees, by relatively modest increases in the bulk heat capacity of the bodies. New data are presented confirming how the top temperature varies with different filter designs in which the bulk heat capacity varies.

Preliminary back pressure and adsorption performance results are reported for two activated carbon honeycomb materials. The carbon impregnated honeycomb (CIH) material is porous ceramic honeycomb with a complete impregnation and coating of activated carbon on all ceramic surfaces. It offers the potential to be a permanent odor filter in that it can be in situ electrically regenerated. It has adsorption performance similar to commercially available layered filters, but has much lower back pressure. The second material is an activated carbon honeycomb (ACH) and is not ceramic-based as is CIH. As such, it has much more activated carbon and superior adsorption performance. The back pressure is low, as with CIH. It has significant potential as a high-performing disposable odor filter.