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Mathematical model for post combustion in smelting reduction
Author(s) -
BeckerLemgau Ullrich,
Tacke KarlHermann
Publication year - 1996
Publication title -
steel research
Language(s) - English
Resource type - Journals
eISSN - 1869-344X
pISSN - 0177-4832
DOI - 10.1002/srin.199605469
Subject(s) - combustion , heat transfer , mechanics , turbulence , mass transfer , thermal science , reduction (mathematics) , flow (mathematics) , thermodynamics , computation , chemistry , mathematics , physics , heat transfer coefficient , geometry , critical heat flux , organic chemistry , algorithm
Post combustion in the top space of iron bath smelting reduction furnaces is analysed with three‐dimensional mathematical modelling. Momentum transport and continuity equations in combination with a k‐ɛ model of turbulence are numerically solved for the gas flow field. Combustion reactions are modelled by a set of transport equations based on the SCRS combustion model and its extension to the k‐ɛ‐g model. A two‐stage combustion scheme is formulated to include carbon transfer and combustion. Heat transfer to bath and droplets is approximated including radiation. Computation results for rectangular reactors are presented with velocity patterns and combustion fields. The complex shapes of post combustion flames are demonstrated. Process parameters are varied to study their influence on combustion and heat transfer to the bath. Effects of the injection geometry are illustrated.