Please use this identifier to cite or link to this item: http://hdl.handle.net/1959.3/201422

Title

Development of dynamic models for oxygen steelmaking

Author(s)

Brooks, Geoffrey;  Dogan, Neslihan;  Rhamdhani, M. Akbar;  Alam, Morshed;  Naser, Jamal

Abstract

The development of useful models for predicting and controlling Oxygen Steelmaking is very difficult because of the complex multi-phase physics and chemistry of the process. In particular, the relationship between the physics of droplet generation and behaviour in the emulsion with the physico-chemical behaviour of the droplets has been difficult to quantify. Recently, researchers at Swinburne University of Technology have been developing models that link the dynamic physics associated with the lance with the chemical processes. This has resulted in a more comprehensive understanding of the process dynamics of the oxygen steelmaking and a fully predictive model for the de-carburisation kinetics is under development. Result and discussion on how this work impacts on the practical operation of steelmaking furnaces will be discussed in the paper.

Publication type

Conference paper

Research centre

Swinburne University of Technology. Faculty of Engineering and Industrial Sciences

Source

Paper presented at the 3rd Australia-China-Japan Joint Symposium on Iron and Steelmaking (ACJ 2010), Sydney, New South Wales, Australia, 25-28 July 2010

Publication year

2010

Keyword(s)

Dynamic models;  Oxygen steelmaking

Publisher

3rd Australia-China-Japan Joint Symposium on Iron and Steelmaking

Copyright

Copyright © 2010.