Cerium Catalysts in Steam-Assisted Pyrolysis of

Cerium was used as a catalyst for n-dodecane cracking in a cylindrical packed bed reactor, alone and then in conjunction with a commercially available platinum catalyst. The objective was to examine its suitability for use in potential thermal management systems. Cracking product distribution, fuel...

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Bibliographic Details
Published in:Journal of thermophysics and heat transfer 2022-04, Vol.36 (2), p.368-376
Main Authors: Smith, Bradley J, Ervin, Jamie S, Sebastian, Mary Ann P, Reitz, Thomas L
Format: Article
Language:English
Online Access:Get full text
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Summary:Cerium was used as a catalyst for n-dodecane cracking in a cylindrical packed bed reactor, alone and then in conjunction with a commercially available platinum catalyst. The objective was to examine its suitability for use in potential thermal management systems. Cracking product distribution, fuel endotherm, and carbon deposition results for the cerium catalyst were compared to those reported previously for the commercial platinum catalyst in a similar packed bed reactor configuration. For some experiments, water was added to the fuel for steam assistance to the n-dodecane pyrolysis reactions in order to examine the effect of water on carbon production and endotherm. The cerium catalysts outperformed the platinum catalyst in terms of both increased endotherm and decreased carbon deposition. Steam assistance proved beneficial in decreasing carbon deposition, although at the cost of decreased endotherm. No appreciable product selectivity was observed for steam assistance with either catalyst. Finally, the overall reaction constant for each catalyst-steam addition case was compared to dodecane conversion in order to determine a relationship that can be applied in designing a reactor for use in a thermal management system.
ISSN:1533-6808
DOI:10.2514/1.T6316