Numerical modeling of homogeneous gas and heterogeneous char combustion for a wood-fired hydronic heater
Autor: | Joseph P. Richter, Joseph C. Mollendorf, Joshua M. Weisberger, Paul E. DesJardin, Brian T. Bojko |
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Rok vydání: | 2019 |
Předmět: |
Flue gas
Materials science 060102 archaeology Renewable Energy Sustainability and the Environment 020209 energy Numerical modeling 06 humanities and the arts 02 engineering and technology Combustion Chemical engineering Homogeneous Heat transfer 0202 electrical engineering electronic engineering information engineering 0601 history and archaeology Char Flue Pyrolysis |
Zdroj: | Renewable Energy. 131:890-899 |
ISSN: | 0960-1481 |
DOI: | 10.1016/j.renene.2018.07.087 |
Popis: | The pyrolysis of woody fuels produces two main products - pyrolysis gases and solid residue char which undergo homogeneous and heterogeneous reactions, respectively. Recent experimental measurements using a two-stage hydronic heater indicate the oxidization of these two products occur at distinctly different time scales with the pyrolysis gases burning immediately, and the majority of the char oxidization occurring later. In this study, these two oxidation pathways are explicitly accounted for in a numerical model that considers a non-homogeneous mixture of product flue gases. The model is based on a three-zone description of the heater which accounts for combustion and heat transfer using well-stirred reactor theory. The first zone describes the gasification of the wood fuel and burning of both pyrolysis gases and char. The second zone represents an after-burning stage. The last stage accounts for the transport of gases out the flue. Model predictions of O 2 , C O 2 , C O , H 2 O and temperature are compared to experimental measurements showing good overall agreement. Furthermore, the dual oxidation pathway description of combustion is shown to be critical to account for the dual-peak C O time signature. The first peak is associated with the burning of pyrolysis gases and the second corresponds to char oxidation. |
Databáze: | OpenAIRE |
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