Intrinsic kinetics for rapid decomposition of methane in an aerosol flow reactor

Jaimee K. Dahl; Victor H. Barocas; David E. Clough; Alan W. Weimer

doi:10.1016/S0360-3199(01)00140-9

Intrinsic kinetics for rapid decomposition of methane in an aerosol flow reactor

Jaimee K. Dahl, Victor H. Barocas, David E. Clough, Alan W. Weimer

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Abstract

A mathematical model was developed for intrinsic kinetics for rapid decomposition of methane in an aerosol flow reactor. The intrinsic kinetics were coupled to the transport phenomena occurring in the aerosol flow tube. Three kinetic parameters were varied to obtain a best-fit model, and then simulation results were compared with experimental results.

Original language	English (US)
Pages (from-to)	377-386
Number of pages	10
Journal	International Journal of Hydrogen Energy
Volume	27
Issue number	4
DOIs	https://doi.org/10.1016/S0360-3199(01)00140-9
State	Published - Apr 2002

Bibliographical note

Funding Information:
The authors thank the DOE Hydrogen Program, the University of Colorado, and BP (Anchorage, AK) for financially supporting this work under Grants DE-FC36-99GO10454, DE-PS36-99GO10383, and cost sharing requirements.

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title = "Intrinsic kinetics for rapid decomposition of methane in an aerosol flow reactor",

abstract = "A mathematical model was developed for intrinsic kinetics for rapid decomposition of methane in an aerosol flow reactor. The intrinsic kinetics were coupled to the transport phenomena occurring in the aerosol flow tube. Three kinetic parameters were varied to obtain a best-fit model, and then simulation results were compared with experimental results.",

author = "Dahl, {Jaimee K.} and Barocas, {Victor H.} and Clough, {David E.} and Weimer, {Alan W.}",

note = "Funding Information: The authors thank the DOE Hydrogen Program, the University of Colorado, and BP (Anchorage, AK) for financially supporting this work under Grants DE-FC36-99GO10454, DE-PS36-99GO10383, and cost sharing requirements. ",

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AU - Clough, David E.

AU - Weimer, Alan W.

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AB - A mathematical model was developed for intrinsic kinetics for rapid decomposition of methane in an aerosol flow reactor. The intrinsic kinetics were coupled to the transport phenomena occurring in the aerosol flow tube. Three kinetic parameters were varied to obtain a best-fit model, and then simulation results were compared with experimental results.

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Intrinsic kinetics for rapid decomposition of methane in an aerosol flow reactor

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