Gasoline Particle Filter Development

Gasoline Particle Filter Development

Gasoline particle filter (GPF) development includes optimization of multiple, competing targets: low backpressure, high clean filtration, acceptable strength, high oxygen storage capacity, small size, and low cost. A three-way catalyst + GPF system needs to meet targets for hydrocarbons, carbon mono...

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Veröffentlicht in:Emission control science and technology (Online) 2017-03, Vol.3 (1), p.105-111
Hauptverfasser: Lambert, Christine, Chanko, Timothy, Dobson, Douglas, Liu, Xin, Pakko, James
Format: Artikel
Sprache:eng
Schlagworte:
Ann Arbor
Ash
Ashes
Carbon monoxide
Catalysts
Diesel
Earth and Environmental Science
Earth Sciences
Environmental Science and Engineering
Filtration
Fluid filters
Gasoline
Industrial Chemistry/Chemical Engineering
Nitrogen oxides
Optimization
Particle mass
Photochemicals
Regeneration
Soot
Special Issue: 2016 CLEERS April 6-8
Storage capacity
Surfaces and Interfaces
Thin Films
USA
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Zusammenfassung:Gasoline particle filter (GPF) development includes optimization of multiple, competing targets: low backpressure, high clean filtration, acceptable strength, high oxygen storage capacity, small size, and low cost. A three-way catalyst + GPF system needs to meet targets for hydrocarbons, carbon monoxide, and nitrogen oxides in addition to particle mass and/or particle number. GPFs behave differently than diesel particle filters (DPFs) in terms of regeneration and ash loading behavior due to vastly different operating conditions. In a relatively clean exhaust condition on GDI relative to diesel, an empty GPF can have filtration efficiencies on the order of 60%. This was improved to 80–90% with a small amount of soot and/or ash on the filter walls, or higher catalyst washcoat loading. In the course of this work, models were developed to predict backpressure, filtration, and chemical performance.
ISSN:2199-3629
2199-3637
DOI:10.1007/s40825-016-0055-x