Experimental Simulation of the Interaction of Slag and Hot Metal with Coke at the Bosh Region of Blast Furnace

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Standard

Experimental Simulation of the Interaction of Slag and Hot Metal with Coke at the Bosh Region of Blast Furnace. / Bhattacharyya, Anrin; Schenk, Johannes; Jäger, Michael et al.
7th European Coke and Ironmaking Conference Proceedings. 2016.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Harvard

Bhattacharyya, A, Schenk, J, Jäger, M, Stocker, H & Thaler, C 2016, Experimental Simulation of the Interaction of Slag and Hot Metal with Coke at the Bosh Region of Blast Furnace. in 7th European Coke and Ironmaking Conference Proceedings. 7th , Linz, Austria, 12/09/16.

APA

Bhattacharyya, A., Schenk, J., Jäger, M., Stocker, H., & Thaler, C. (2016). Experimental Simulation of the Interaction of Slag and Hot Metal with Coke at the Bosh Region of Blast Furnace. In 7th European Coke and Ironmaking Conference Proceedings

Vancouver

Bhattacharyya A, Schenk J, Jäger M, Stocker H, Thaler C. Experimental Simulation of the Interaction of Slag and Hot Metal with Coke at the Bosh Region of Blast Furnace. In 7th European Coke and Ironmaking Conference Proceedings. 2016

Author

Bibtex - Download

@inproceedings{892b731735514dbea3cdb5678e750d20,
title = "Experimental Simulation of the Interaction of Slag and Hot Metal with Coke at the Bosh Region of Blast Furnace",
abstract = "Coke is the only raw material which remains solid even at the lowest zone of blast furnace. The bed-permeability in the bosh zone of the blast furnace is maintained by the solid coke structure. The wetting behaviour of slags in the coke bed of the bosh region in a blast furnace plays a very important role on the process efficiency by directly influencing the free movement of the burden and furnace gas and thereby affecting the fuel consumption. Cokes of unsuitable quality will lead to lower permeability in the bosh zone and hinder the furnace operation. In this work, various industrial coke samples are treated with slags of different basicities in a drop-shape analysis facility at high temperature similar to process conditions. The coke samples have been treated under standard CRI (Coke Reactivity Index) test conditions beforehand in order to impart a closer process simulation. The results display the variations in wetting angle, temperature and time for different coke and slag combinations as a function of coke properties and slag compositions. The wetting behavior at the coke/hot metal interface has also been investigated. The results provide a better understanding of the solid-liquid interaction which takes place at the bosh region of the blast furnace. ",
author = "Anrin Bhattacharyya and Johannes Schenk and Michael J{\"a}ger and Hugo Stocker and Christoph Thaler",
year = "2016",
month = sep,
language = "English",
booktitle = "7th European Coke and Ironmaking Conference Proceedings",
note = "7th : European Coke and Ironmaking Conference, ECIC ; Conference date: 12-09-2016 Through 14-09-2016",
url = "http://ecic2016.org/",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - Experimental Simulation of the Interaction of Slag and Hot Metal with Coke at the Bosh Region of Blast Furnace

AU - Bhattacharyya, Anrin

AU - Schenk, Johannes

AU - Jäger, Michael

AU - Stocker, Hugo

AU - Thaler, Christoph

PY - 2016/9

Y1 - 2016/9

N2 - Coke is the only raw material which remains solid even at the lowest zone of blast furnace. The bed-permeability in the bosh zone of the blast furnace is maintained by the solid coke structure. The wetting behaviour of slags in the coke bed of the bosh region in a blast furnace plays a very important role on the process efficiency by directly influencing the free movement of the burden and furnace gas and thereby affecting the fuel consumption. Cokes of unsuitable quality will lead to lower permeability in the bosh zone and hinder the furnace operation. In this work, various industrial coke samples are treated with slags of different basicities in a drop-shape analysis facility at high temperature similar to process conditions. The coke samples have been treated under standard CRI (Coke Reactivity Index) test conditions beforehand in order to impart a closer process simulation. The results display the variations in wetting angle, temperature and time for different coke and slag combinations as a function of coke properties and slag compositions. The wetting behavior at the coke/hot metal interface has also been investigated. The results provide a better understanding of the solid-liquid interaction which takes place at the bosh region of the blast furnace.

AB - Coke is the only raw material which remains solid even at the lowest zone of blast furnace. The bed-permeability in the bosh zone of the blast furnace is maintained by the solid coke structure. The wetting behaviour of slags in the coke bed of the bosh region in a blast furnace plays a very important role on the process efficiency by directly influencing the free movement of the burden and furnace gas and thereby affecting the fuel consumption. Cokes of unsuitable quality will lead to lower permeability in the bosh zone and hinder the furnace operation. In this work, various industrial coke samples are treated with slags of different basicities in a drop-shape analysis facility at high temperature similar to process conditions. The coke samples have been treated under standard CRI (Coke Reactivity Index) test conditions beforehand in order to impart a closer process simulation. The results display the variations in wetting angle, temperature and time for different coke and slag combinations as a function of coke properties and slag compositions. The wetting behavior at the coke/hot metal interface has also been investigated. The results provide a better understanding of the solid-liquid interaction which takes place at the bosh region of the blast furnace.

M3 - Conference contribution

BT - 7th European Coke and Ironmaking Conference Proceedings

T2 - 7th

Y2 - 12 September 2016 through 14 September 2016

ER -