Add to ORKGIndustrial coke made from coal, is a complex heterogeneous material, consisting of different carbon types (macerals), inorganic material (minerals) and a highly variable pore structure 1-3. This complexity and heterogeneity make it difficult to isolate specific effects such as mineral type on coke reactivity and carbon structure
The effect of combinations of minerals in the alumina-silica-magnetite ternary system on the reactiv...
In order to increase its industrial competitiveness and to satisfy blast furnace requirements, the c...
The carbon in metallurgical coke is composed of textural units, varying in size and shape depending ...
Coke is the fuel and the primary source of CO for the reduction of iron oxide in the blast furnace. ...
The reactivity of coke analogues doped with minerals to mimic the mineralogy of specific industrial ...
The microtextural characteristics of coke, prepared form twelve Indian coking/caking coals were stud...
The composition of a number of coals with varying rank was characterized by a number of means with e...
Coke quality in blast furnace is measured by its resistance to degradation, in its role as a fuel, a...
The properties of metallurgical coke are critical to the performance of the blast furnace for iron m...
To better understand metallurgical coke behavior in blast furnace, the preparation of coke analogues...
Thermoplastic behaviour of coal plays a critical role on developing high coke quality attributes inc...
The effect of the mineral matter on the reactivity of a coke analogue was examined through the addit...
Metallurgical coke is an essential reagent in the ironmaking blast furnace process. A better underst...
The effects of calcination heating rate and ultimate calcination temperature upon calcined coke and ...
Metallurgical coke is a key component in the blast furnace ironmaking process. It is a complex compo...
The effect of combinations of minerals in the alumina-silica-magnetite ternary system on the reactiv...
In order to increase its industrial competitiveness and to satisfy blast furnace requirements, the c...
The carbon in metallurgical coke is composed of textural units, varying in size and shape depending ...
Coke is the fuel and the primary source of CO for the reduction of iron oxide in the blast furnace. ...
The reactivity of coke analogues doped with minerals to mimic the mineralogy of specific industrial ...
The microtextural characteristics of coke, prepared form twelve Indian coking/caking coals were stud...
The composition of a number of coals with varying rank was characterized by a number of means with e...
Coke quality in blast furnace is measured by its resistance to degradation, in its role as a fuel, a...
The properties of metallurgical coke are critical to the performance of the blast furnace for iron m...
To better understand metallurgical coke behavior in blast furnace, the preparation of coke analogues...
Thermoplastic behaviour of coal plays a critical role on developing high coke quality attributes inc...
The effect of the mineral matter on the reactivity of a coke analogue was examined through the addit...
Metallurgical coke is an essential reagent in the ironmaking blast furnace process. A better underst...
The effects of calcination heating rate and ultimate calcination temperature upon calcined coke and ...
Metallurgical coke is a key component in the blast furnace ironmaking process. It is a complex compo...
The effect of combinations of minerals in the alumina-silica-magnetite ternary system on the reactiv...
In order to increase its industrial competitiveness and to satisfy blast furnace requirements, the c...
The carbon in metallurgical coke is composed of textural units, varying in size and shape depending ...