4.7 Article

Coupling of spectral thermal radiation model with a comprehensive system model for co-combustion of biomass in bubbling fluidized bed

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FUEL
卷 333, 期 -, 页码 -

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ELSEVIER SCI LTD
DOI: 10.1016/j.fuel.2022.126534

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Radiative heat transfer; Bubbling fluidized bed combustors; Spectral radiation; Co-combustion; Biomass

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A 1-D model for a BFBC co-firing lignite with cotton residue and limestone is coupled with a 3-D spectral and gray radiation models. The performance of the models is assessed by comparing their predictions with measurements from a BFBC. Comparisons between models with and without radiation show that the spectral model only slightly improves the predictions, due to the small temperature difference between the freeboard and walls and the dominance of combustion gases and particles in radiative heat transfer.
A previously developed 1-D comprehensive model for a bubbling fluidized bed combustor (BFBC) co-firing lignite with cotton residue and limestone is coupled with a 3-D spectral and gray radiation models utilizing method of lines (MOL) solution of discrete ordinates method (DOM). The performance of the coupled models is assessed by comparing their predictions of temperature profiles and gaseous emissions (i) with those of original FBC model without coupling and (ii) with the in-situ measurements from Middle East Technical University (METU) 0.3 MWt BFBC. Comparisons between fluidized bed combustion (FBC) system models with and without radiation reveal that the spectral model improves the predictions only slightly. This is considered to be due to the very small temperature difference between the freeboard medium and hot refractory side walls which results in lower rates of heat transfer from the freeboard to the walls. Furthermore, radiative heat transfer in the freeboard is dominated both by combustion gases and particles.

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