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Портал Begell Электронная Бибилиотека e-Книги Журналы Справочники и Сборники статей Коллекции
Journal of Porous Media
Импакт фактор: 1.49 5-летний Импакт фактор: 1.159 SJR: 0.43 SNIP: 0.671 CiteScore™: 1.58

ISSN Печать: 1091-028X
ISSN Онлайн: 1934-0508

Выпуски:
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Journal of Porous Media

DOI: 10.1615/JPorMedia.v19.i11.20
pages 941-953

NUMERICAL STUDY OF POROUS MEDIA TURBULENT COMBUSTION IN A RECUPERATIVE REACTOR

Pablo Donoso-Garcia
Department of Chemical Engineering, Universidad de Santiago de Chile, B. O'Higgins 3363, Chile
Luis Henriquez-Vargas
Department of Chemical Engineering, Universidad de Santiago de Chile, 3363 B. O'Higgins, Santiago, Chile

Краткое описание

This paper presents two-dimensional simulations of turbulent porous media combustion of a methane−air mixture in a recuperative reactor. Transport equations were written in their time- and volume-averaged form, and a statistical turbulence model k−ε was applied to simulate turbulence generation due to the porous matrix. ANSYS FLUENT was used to simulate the prototype reactor, and user−defined−function (UDF) interfaces for extra terms involving turbulence were incorporated into the solver interface. The study includes the production of thermal NOx modeled by the extended Zeldovich mechanism with postprocessing computation. Different values of operational variables for superficial velocity and equivalence ratio that enable stable combustion within the sistem were sought. For gas mixtures, increasing the fuel gas inlet velocity is accompanied by higher peak temperatures and combustion front displacement toward the reactor outlet. The NOx formation rate is favored with increasing temperature level inside the reactor but is only significant when the temperature exceeds 1800 K. Heat recovery through the system heat bridge raises the temperature of the incoming gas mixture, allowing one to extend the lower limit of flammability for a given set of operational variables, superficial velocity, and equivalence ratio.

Ключевые слова: combustion, porous matrix, turbulence, heat recovery

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