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India BS6 Stage2 (2023) regulations demand all gasoline direct injection (GDI) vehicles to meet particulate number emissions (PN) below 6x10+11# per km. Gasoline particulate filters (GPF) are a proven technology and enable high PN filtration efficiencies throughout the entire vehicle lifetime. One challenge for GPF applications could be the changing emission performance characteristics as a function of mileage due to collected ash and/or soot deposits with implications on back pressure losses. The main objective of this technical contribution is to study the above-mentioned challenges while applying Indian driving conditions and typical Indian climate and other ambient conditions. The substrate technology selected for this study is a high porosity GPF designed to enable the integration of a three-way functionality into the GPF, commonly described as catalyzed GPF (cGPF).

With the introduction of limits for particle numbers besides particle mass emitted by light duty vehicles new pollution control devices like catalyzed gasoline particulate filters (GPF) might be required. GPFs need to address the challenge to provide sufficient particle number reduction at acceptable pressure drop in addition while having high conversion efficiencies for regulated pollutants. The emission performance of gasoline particulate filters coated with a three-way functional washcoat was examined. The impact of the washcoat on particle filtration efficiency was investigated, as well as its impact on the conversion efficiencies for hydrocarbons, carbon monoxide and nitrous oxides. Moreover, it was found that the precious metal containing washcoat accelerates the regeneration of a filter when loaded with artificial soot.

With the growing awareness about the presence of fine/ultra fine particulates in the ambient air and their negative impact on climate and health, some regions of the world have started to look closer at the contribution of road traffic. Since Gasoline engines, in particular when injecting fuel directly into the combustion chamber, proved to emit relevant numbers of particulates, even hardly visible, the growing share of Gasoline DI engines and their small size of particulate emissions is a concern. To address the same, the EU has already set limits for the particulate number with EU6 from 2015 onwards. The US considers setting challenging limits by particulate mass. Since mass of ultra fine particulates is very low and difficult to measure, experts investigate if a measurement by number might better address the particular concern. The implementation of a coated Particulate Filter enables meeting not only basic demands during traditional emission test cycles.