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2019 | OriginalPaper | Buchkapitel

Flow Analysis of Catalytic Converter—LCV BS III Applications for Optimising Pressure Drop

verfasst von : C. P. Om Ariara Guhan, G. Arthanareeswaran

Erschienen in: Innovative Design, Analysis and Development Practices in Aerospace and Automotive Engineering (I-DAD 2018)

Verlag: Springer Singapore

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Abstract

Recently, Indian government enforces stringent control standards for automotive emissions in order to minimise pollution and keep the environment green. To confirm these emission norms, new advanced technologies have been developed in the automotive emissions after treatment systems market. Diesel oxidation catalyst is one of the important contraptions which play a major role in reducing CO and unburned HC emissions. By employing CFD software, the flow properties of catalytic converter can be analysed. This helps to optimise the surface area of DOC, and the effective reaction area is utilised for oxidising the unburned hydrocarbon and carbon monoxide of engine exhaust gases. In the present work, 0.8-litre DOC has been modelled in CATIA V5 software, and CFD analysis was executed by ANSYS CFX software. The pressure drop has been compared by varying the cell density and wall thickness. Finally, the results are compared and the parameters of substrate which give optimum pressure drop are established and concluded. The novelty of the present work is that wall thickness of the porous media substrate, which is in mill inch, has been considered to find out the pressure drop. Calculated pressure drop is verified with engine test bed pressure drop experimental data, before concluding the results.

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Vorheriges Kapitel Friction and Wear Analysis of PTFE Composite Materials

Nächstes Kapitel Step Toward Computer-Aided Integration of Sheet Metal Applications

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Titel: Flow Analysis of Catalytic Converter—LCV BS III Applications for Optimising Pressure Drop
verfasst von: C. P. Om Ariara Guhan
G. Arthanareeswaran
Verlag: Springer Singapore
Buch: Innovative Design, Analysis and Development Practices in Aerospace and Automotive Engineering (I-DAD 2018)
Print ISBN: 978-981-13-2717-9

Electronic ISBN: 978-981-13-2718-6

Copyright-Jahr: 2019
DOI: https://doi.org/10.1007/978-981-13-2718-6_41

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