SAE International Development of TWC and PGM Free Catalyst Combination as Gasoline Exhaust Aftertreatment 2016-01-2323

Description
Reduction of the amount of platinum group metals (PGM: Pt, Pd, Rh) utilized in three-way catalysts (TWC) has been required from a point of resource shortage and cost effectiveness. A conventional TWC system is composed of a close-coupled (CC) catalyst and an underfloor (UF) catalyst, both PGM-based. The CC-TWC promotes HC/CO oxidation and NO x reduction by CO. The UF-TWC mainly facilitates further NO x reduction by CO. In this study, a TWC system comprising a CC catalyst with PGM and an UF catalyst without PGM has been described. The newly developed system, performing reasonably well with a conventional stoichiometric gasoline combustion engine, offers an opportunity to reduce PGM usage. In this system, the UF-non-PGM catalyst is composed of a Ni/CeO 2 bottom layer which functions as a deNO x catalyst with CO-NO reaction and a zeolite based top layer which works as a deNO x catalyst with passive NH 3 -SCR reaction. The CC catalyst operates as a conventional TWC but also generates a certain amount of NH 3 under rich conditions, and the generated NH 3 is used as the reductant for the SCR reaction on the UF-non-PGM catalyst. The NH 3 generation on the CC-TWC and the specific deNO x concept in UF-non-PGM catalyst were validated by model gas reactor test, and the performance of the CC-TWC + UF-non-PGM catalyst system was evaluated by chassis test. It was found that such a system showed promising performance in LA4 and US06 evaluations. The NO x conversions of the UF-non-PGM catalyst were 85% and 40% in LA4 and US06 modes, respectively.
Description
Reduction of the amount of platinum group metals (PGM: Pt, Pd, Rh) utilized in three-way catalysts (TWC) has been required from a point of resource shortage and cost effectiveness. A conventional TWC system is composed of a close-coupled (CC) catalyst and an underfloor (UF) catalyst, both PGM-based. The CC-TWC promotes HC/CO oxidation and NO x reduction by CO. The UF-TWC mainly facilitates further NO x reduction by CO. In this study, a TWC system comprising a CC catalyst with PGM and an UF catalyst without PGM has been described. The newly developed system, performing reasonably well with a conventional stoichiometric gasoline combustion engine, offers an opportunity to reduce PGM usage. In this system, the UF-non-PGM catalyst is composed of a Ni/CeO 2 bottom layer which functions as a deNO x catalyst with CO-NO reaction and a zeolite based top layer which works as a deNO x catalyst with passive NH 3 -SCR reaction. The CC catalyst operates as a conventional TWC but also generates a certain amount of NH 3 under rich conditions, and the generated NH 3 is used as the reductant for the SCR reaction on the UF-non-PGM catalyst. The NH 3 generation on the CC-TWC and the specific deNO x concept in UF-non-PGM catalyst were validated by model gas reactor test, and the performance of the CC-TWC + UF-non-PGM catalyst system was evaluated by chassis test. It was found that such a system showed promising performance in LA4 and US06 evaluations. The NO x conversions of the UF-non-PGM catalyst were 85% and 40% in LA4 and US06 modes, respectively.

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Development of TWC and PGM Free Catalyst Combination as Gasoline Exhaust Aftertreatment - 2016-01-2323 - SAE International
Warrendale, PA, United States
Development of TWC and PGM Free Catalyst Combination as Gasoline Exhaust Aftertreatment
2016-01-2323
Development of TWC and PGM Free Catalyst Combination as Gasoline Exhaust Aftertreatment 2016-01-2323
Reduction of the amount of platinum group metals (PGM: Pt, Pd, Rh) utilized in three-way catalysts (TWC) has been required from a point of resource shortage and cost effectiveness. A conventional TWC system is composed of a close-coupled (CC) catalyst and an underfloor (UF) catalyst, both PGM-based. The CC-TWC promotes HC/CO oxidation and NO x reduction by CO. The UF-TWC mainly facilitates further NO x reduction by CO. In this study, a TWC system comprising a CC catalyst with PGM and an UF catalyst without PGM has been described. The newly developed system, performing reasonably well with a conventional stoichiometric gasoline combustion engine, offers an opportunity to reduce PGM usage. In this system, the UF-non-PGM catalyst is composed of a Ni/CeO 2 bottom layer which functions as a deNO x catalyst with CO-NO reaction and a zeolite based top layer which works as a deNO x catalyst with passive NH 3 -SCR reaction. The CC catalyst operates as a conventional TWC but also generates a certain amount of NH 3 under rich conditions, and the generated NH 3 is used as the reductant for the SCR reaction on the UF-non-PGM catalyst. The NH 3 generation on the CC-TWC and the specific deNO x concept in UF-non-PGM catalyst were validated by model gas reactor test, and the performance of the CC-TWC + UF-non-PGM catalyst system was evaluated by chassis test. It was found that such a system showed promising performance in LA4 and US06 evaluations. The NO x conversions of the UF-non-PGM catalyst were 85% and 40% in LA4 and US06 modes, respectively.

Reduction of the amount of platinum group metals (PGM: Pt, Pd, Rh) utilized in three-way catalysts (TWC) has been required from a point of resource shortage and cost effectiveness. A conventional TWC system is composed of a close-coupled (CC) catalyst and an underfloor (UF) catalyst, both PGM-based. The CC-TWC promotes HC/CO oxidation and NO x reduction by CO. The UF-TWC mainly facilitates further NO x reduction by CO. In this study, a TWC system comprising a CC catalyst with PGM and an UF catalyst without PGM has been described. The newly developed system, performing reasonably well with a conventional stoichiometric gasoline combustion engine, offers an opportunity to reduce PGM usage. In this system, the UF-non-PGM catalyst is composed of a Ni/CeO 2 bottom layer which functions as a deNO x catalyst with CO-NO reaction and a zeolite based top layer which works as a deNO x catalyst with passive NH 3 -SCR reaction. The CC catalyst operates as a conventional TWC but also generates a certain amount of NH 3 under rich conditions, and the generated NH 3 is used as the reductant for the SCR reaction on the UF-non-PGM catalyst. The NH 3 generation on the CC-TWC and the specific deNO x concept in UF-non-PGM catalyst were validated by model gas reactor test, and the performance of the CC-TWC + UF-non-PGM catalyst system was evaluated by chassis test. It was found that such a system showed promising performance in LA4 and US06 evaluations. The NO x conversions of the UF-non-PGM catalyst were 85% and 40% in LA4 and US06 modes, respectively.

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  SAE International
Product Category Standards and Technical Documents
Product Number 2016-01-2323
Product Name Development of TWC and PGM Free Catalyst Combination as Gasoline Exhaust Aftertreatment
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