Patent application number | Description | Published |
20100203238 | Preparation method for a partially coated monolith - Processes are provided for making partially coated monolith catalysts that are useful, for example, as pre-combustor catalysts for diesel exhaust aftertreatment. Monolith substrates are provided with interconnectivity and/or temporary barriers that allow from about 10 to about 90% of the monolith channels to be coated after the monolith substrate is assembled without having to carefully pick out among a large number of openings which ones to inject into or which ones to plug. The invention includes options of injecting into a multipath monolith substrate and of emplacing blocking material during monolith construction. Either catalyst coating material or coat-blocking material can be injected. Blocking materials allow the use of machinery for ordinarily non-selective processes, such as machinery for dip coating. Both multipath injections and pre-placed barriers can be used in a single partial coating process. | 08-12-2010 |
20120216514 | Soot Resistant Diesel Fuel Reformer For Diesel Engine Emissions Aftertreatment - A soot resistant and efficient diesel fuel reformer for a diesel exhaust aftertreatment system has serially arranged first and second catalyst supports. The first support is nearer the inlet and has a monolith structure that is uniform in the direction of flow. The second support has a modified monolith structure that is non-uniform in the direction of flow. Preferably, the first support has straight channels. Preferably, the second support has internal leading edges spaced periodically through its length to break up the flow. The first support has a catalyst coating comprising at least an oxidation catalyst. The second support has a catalyst coating comprising at least a steam reforming catalyst. | 08-30-2012 |
20150194686 | CATALYTIC HYDROGEN COMBUSTOR - A catalytic hydrogen combustor is disclosed that is adapted to combust substantially all the hydrogen in the fuel cell exhaust gas during both steady state operation and for short duration higher hydrogen concentration pulses. Hydrogen combustion is catalyzed in two zones, a first zone in which a lower level of catalyst activity is used to catalyze combustion of a higher concentration hydrogen pulse as it moves through the zone and a second zone in which a higher level of catalyst activity is used to catalyze combustion of a lower concentration of hydrogen that is characteristic of steady state fuel cell operation. | 07-09-2015 |