Abstract
The flow structure inside round furnaces with various numbers of burners, burner arrangements, and exit conditions has been studied experimentally with the purpose of improving the flow conditions and the resulting heat transfer. Small-scale transparent models were built according to the laws of geometric and dynamic similarity. Various visualization and experimental techniques were applied. The flow pattern in the near-surface regions was visualized by the fluorescent minituft and “popcorn” techniques; the flow structure in the bulk was analyzed by smoke injection and laser sheet illumination. For the study of the transient effects, high-speed video photography was applied. The effects of the various flow patterns, like axisymmetric and rotational flow, on the magnitude and uniformity of the residence time, as well as on the formation of stagnation zones, were discussed. Conclusions were drawn and have since been applied for the improvement of furnace performance.
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Kiss, L.I., Bui, R.T., Charette, A. et al. Gas flow analysis in melting furnaces. Metall Mater Trans B 29, 1199–1207 (1998). https://doi.org/10.1007/s11663-998-0042-x
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DOI: https://doi.org/10.1007/s11663-998-0042-x