A Mathematical Model for the Reduction Stage of the AOD Process. Part II: Model Validation and Results
スポンサーリンク
概要
- 論文の詳細を見る
A process model was proposed by Järvinen and co-authors for modelling the side-blowing decarburisation stage of the Argon-Oxygen Decarburisation (AOD) process. In Part I, a new mathematical model was derived for the reduction stage and coupled with the decarburisation model developed earlier. This paper, Part II, considers the validation of the model for the reduction stage with full-scale production data from a 150 t AOD converter in operation at Outokumpu Stainless Oy, Tornio Works, Finland. The results indicate that the model can accurately predict the end composition of the steel bath. Moreover, the model can be used to study rate phenomena during the reduction stage. Model predictions suggest that the reduction rate of chromium oxides is controlled initially by mass transfer of silicon onto the reaction surface and later by the diffusive mass transfer of chromium oxides in the slag droplets. Sensitivity of the model predictions to different initial bath temperatures, blowing times, ferrosilicon particle sizes and ferrosilicon feed rates was studied.
- The Iron and Steel Institute of Japanの論文
著者
-
Sulasalmi Petri
Laboratory Of Process Metallurgy University Of Oulu
-
Fabritius Timo
Laboratory Of Process Metallugy University Of Oulu
-
Heikkinen Eetu-pekka
Laboratory Of Process Metallurgy University Of Oulu
-
SULASALMI Petri
Laboratory of Process Metallurgy, University of Oulu
-
Visuri Ville-Valtteri
Laboratory of Process Metallurgy, University of Oulu
-
Järvinen Mika
Department of Energy Technology, School of Engineering, Aalto University
-
Savolainen Jari
Outokumpu Stainless Oy
関連論文
- Surface Tension of Liquid Fe-N-O-S Alloy
- The Modeling of the Gas Flow and Its Influence on the Scale Accumulation in the Steel Slab Pusher-type Reheating Furnace
- Interfacial Phenomena in Metal-Slag-Gas System during AOD Process
- Behavior of Nitrogen During AOD Process
- The Effect of Bottom Nozzle Configuration on the Bath Behaviour in the BOF
- Splashing and Spitting Behaviour in the Combined Blown Steelmaking Converter
- Effect of Reactive Gas on the Wetting of Molten Iron-Carbon Alloy on Ceramic Substrates
- CFD Model for Emulsification of Slag into the Steel
- Effect of Fluid Physical Properties on the Emulsification
- A Mathematical Model for the Reduction Stage of the AOD Process. Part I: Derivation of the Model
- A Mathematical Model for the Reduction Stage of the AOD Process. Part II: Model Validation and Results
- Effect of H_2-H_2O on the Reduction of Olivine Pellets in CO-CO_2 Gas
- A Mathematical Model for the Reduction Stage of the AOD Process : Part II : Model Validation and Results