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Article Dans Une Revue Heat and Mass Transfer Année : 2015

Scaling heat and mass flow through porous media during pyrolysis.

Résumé

The modelling of heat and mass flow through porous media in the presence of pyrolysis is complex because various physical and chemical phenomena need to be represented. In addition to the transport of heat by conduction and convection, and the change of properties with varying pressure and temperature, these processes involve transport of mass by convection, evaporation, condensation and pyrolysis chemical reactions. Examples of such processes include pyrolysis of wood, thermal decomposition of polymer composite and in situ upgrading of heavy oil and oil shale. The behaviours of these systems are difficult to predict as relatively small changes in the material composition can significantly change the thermophysical properties. Scaling reduces the number of parameters in the problem statement and quantifies the relative importance of the various dimensional parameters such as permeability, thermal conduction and reaction constants. This paper uses inspectional analysis to determine the minimum number of dimensionless scaling groups that describe the decomposition of a solid porous material into a gas in one dimension. Experimental design is then used to rank these scaling groups in terms of their importance in describing the outcome of two example processes: the thermal decomposition of heat shields formed from polymer composites and the in situ upgrading of heavy oils and oil shales. A sensitivity analysis is used to divide these groups into three sets (primary, secondary and insignificant), thus identifying the combinations of solid and fluid properties that have the most impact on the performance of the different processes.
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Dates et versions

hal-03519130 , version 1 (10-01-2022)

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Julien Maes, Ann H. Muggeridge, Matthew D. Jackson, Michel Quintard, Alexandre Lapene. Scaling heat and mass flow through porous media during pyrolysis.. Heat and Mass Transfer, 2015, 51 (3), pp.313-334. ⟨10.1007/s00231-014-1391-4⟩. ⟨hal-03519130⟩
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