Standard

Effect of KAlF4 on the efficiency of hot metal desulphurisation with magnesium. / Schrama, Frank; Beunder, Elisabeth M.; Ji, Fuzhong; Woolf, Rhian; Barnes, Chris; Sietsma, Jilt; Boom, Rob; Yang, Yongxiang.

8th European Oxygen Steelmaking Conference (EOSC 2018). 2018.

Research output: Chapter in Book/Conference proceedings/Edited volumeConference contributionScientific

Harvard

Schrama, F, Beunder, EM, Ji, F, Woolf, R, Barnes, C, Sietsma, J, Boom, R & Yang, Y 2018, Effect of KAlF4 on the efficiency of hot metal desulphurisation with magnesium. in 8th European Oxygen Steelmaking Conference (EOSC 2018). 8th European Oxygen Steelmaking Conference , Taranto, Italy, 10/10/18.

APA

Schrama, F., Beunder, E. M., Ji, F., Woolf, R., Barnes, C., Sietsma, J., ... Yang, Y. (2018). Effect of KAlF4 on the efficiency of hot metal desulphurisation with magnesium. In 8th European Oxygen Steelmaking Conference (EOSC 2018)

Vancouver

Schrama F, Beunder EM, Ji F, Woolf R, Barnes C, Sietsma J et al. Effect of KAlF4 on the efficiency of hot metal desulphurisation with magnesium. In 8th European Oxygen Steelmaking Conference (EOSC 2018). 2018

Author

Schrama, Frank ; Beunder, Elisabeth M. ; Ji, Fuzhong ; Woolf, Rhian ; Barnes, Chris ; Sietsma, Jilt ; Boom, Rob ; Yang, Yongxiang. / Effect of KAlF4 on the efficiency of hot metal desulphurisation with magnesium. 8th European Oxygen Steelmaking Conference (EOSC 2018). 2018.

BibTeX

@inproceedings{a5ad0d1147a84d1cb0ec098af889d852,
title = "Effect of KAlF4 on the efficiency of hot metal desulphurisation with magnesium",
abstract = "At the hot metal desulphurisation (HMD) stations of Tata Steel’s BOS plant in Port Talbot (UK), KAlF4 is injected together with magnesium in order to increase the fluidity of the slag and thus to decrease the iron loss. Although KAlF4 is successfully contributing to a lower iron loss during HMD, it also has a negative effect on the desulphurisation efficiency of magnesium. Analysis of slag samples from the plant and FactSage calculations showed that the fluorine in KAlF4 reacts with the magnesium, thus preventing the magnesium from reacting with the sulphur.",
keywords = "Hot Metal Desulphurisation, slag modifier, magnesium efficiency, fluorine, potassium cryolite",
author = "Frank Schrama and Beunder, {Elisabeth M.} and Fuzhong Ji and Rhian Woolf and Chris Barnes and Jilt Sietsma and Rob Boom and Yongxiang Yang",
year = "2018",
language = "English",
booktitle = "8th European Oxygen Steelmaking Conference (EOSC 2018)",

}

RIS

TY - GEN

T1 - Effect of KAlF4 on the efficiency of hot metal desulphurisation with magnesium

AU - Schrama, Frank

AU - Beunder, Elisabeth M.

AU - Ji, Fuzhong

AU - Woolf, Rhian

AU - Barnes, Chris

AU - Sietsma, Jilt

AU - Boom, Rob

AU - Yang, Yongxiang

PY - 2018

Y1 - 2018

N2 - At the hot metal desulphurisation (HMD) stations of Tata Steel’s BOS plant in Port Talbot (UK), KAlF4 is injected together with magnesium in order to increase the fluidity of the slag and thus to decrease the iron loss. Although KAlF4 is successfully contributing to a lower iron loss during HMD, it also has a negative effect on the desulphurisation efficiency of magnesium. Analysis of slag samples from the plant and FactSage calculations showed that the fluorine in KAlF4 reacts with the magnesium, thus preventing the magnesium from reacting with the sulphur.

AB - At the hot metal desulphurisation (HMD) stations of Tata Steel’s BOS plant in Port Talbot (UK), KAlF4 is injected together with magnesium in order to increase the fluidity of the slag and thus to decrease the iron loss. Although KAlF4 is successfully contributing to a lower iron loss during HMD, it also has a negative effect on the desulphurisation efficiency of magnesium. Analysis of slag samples from the plant and FactSage calculations showed that the fluorine in KAlF4 reacts with the magnesium, thus preventing the magnesium from reacting with the sulphur.

KW - Hot Metal Desulphurisation

KW - slag modifier

KW - magnesium efficiency

KW - fluorine

KW - potassium cryolite

M3 - Conference contribution

BT - 8th European Oxygen Steelmaking Conference (EOSC 2018)

ER -

ID: 53808034