Add to ORKGMuch of the recent experimental work carried out at by the PYROmetallurgical group at the University of Wollongong has focussed on understanding coke behaviour in the lower zone of the blast furnace. This work has had both fundamental and applied elements and has been carried out with a view to improving coke utilization in the blast furnace and ultimately reducing greenhouse gas emissions
Coke is an essential raw material for the manufacture of iron by the conventional blast furnace tec...
Fundamental understanding of coke reactions with gas, metal and slag phases is essential for ensurin...
The implementation of pulverized coal injection technology has resulted in the reduction in the amou...
Much of the recent experimental work carried out at by the PYROmetallurgical group at the University...
An experimental study characterising mineral layer formation at the coke-iron boundary during coke d...
The efficiency in use of reducing agents in blast furnace (BF) ironmaking has been significantly imp...
The formation and development of the mineral layer that forms between coke and liquid iron during ca...
A study into the effects of surface ash formation on the kinetics of coke dissolution in liquid iron...
The primary aim of this study was to examine changes in coke properties in an attempt to establish a...
Metallurgical coke is an essential reagent in the ironmaking blast furnace process. A better underst...
3 Ton/day Experimental Blast Furnace: Results of the experimental research carried out on a 3 to...
The need for more efficient blast furnaces is even greater now that there are stricter environmental...
Metallurgical coke, the primary fuel of the ironmaking blast furnace contains approximately 8-12% mi...
Large modem blast furnaces, such as No. 5 unit at Port Kembla vihlch produces 7,000 tonnes per day o...
In this paper results from an investigation focused on coke/iron reactions occurring in the hearth o...
Coke is an essential raw material for the manufacture of iron by the conventional blast furnace tec...
Fundamental understanding of coke reactions with gas, metal and slag phases is essential for ensurin...
The implementation of pulverized coal injection technology has resulted in the reduction in the amou...
Much of the recent experimental work carried out at by the PYROmetallurgical group at the University...
An experimental study characterising mineral layer formation at the coke-iron boundary during coke d...
The efficiency in use of reducing agents in blast furnace (BF) ironmaking has been significantly imp...
The formation and development of the mineral layer that forms between coke and liquid iron during ca...
A study into the effects of surface ash formation on the kinetics of coke dissolution in liquid iron...
The primary aim of this study was to examine changes in coke properties in an attempt to establish a...
Metallurgical coke is an essential reagent in the ironmaking blast furnace process. A better underst...
3 Ton/day Experimental Blast Furnace: Results of the experimental research carried out on a 3 to...
The need for more efficient blast furnaces is even greater now that there are stricter environmental...
Metallurgical coke, the primary fuel of the ironmaking blast furnace contains approximately 8-12% mi...
Large modem blast furnaces, such as No. 5 unit at Port Kembla vihlch produces 7,000 tonnes per day o...
In this paper results from an investigation focused on coke/iron reactions occurring in the hearth o...
Coke is an essential raw material for the manufacture of iron by the conventional blast furnace tec...
Fundamental understanding of coke reactions with gas, metal and slag phases is essential for ensurin...
The implementation of pulverized coal injection technology has resulted in the reduction in the amou...