ISSN 2594-357X
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Abstract
It’s systematic and detailed presented the subsequent entry point about the energy saving and CO2 emission reducing for the blast furnace. It indicates great potential and practical value in the area of hot charging of the material and fuel, hydrogen-matter injection, process optimizing for hopper pressure modulation, sensible heat reuse of slag, pure oxygen injection.
It’s systematic and detailed presented the subsequent entry point about the energy saving and CO2 emission reducing for the blast furnace. It indicates great potential and practical value in the area of hot charging of the material and fuel, hydrogen-matter injection, process optimizing for hopper pressure modulation, sensible heat reuse of slag, pure oxygen injection.
Keywords
Blast furnace; CO2 emission reduction; New developments.
Blast furnace; CO2 emission reduction; New developments.
How to cite
Guo-xing., Zhang; Em, Tang; Ju-yan, Li; Qiang, Zhou; Xiao-wei, Wang.
PRACTICAL TECHNICAL REVIEWS IN ENERGY SAVING
AND CO2 EMISSION REDUCING FOR THE BLAST
FURNACE,
p. 253-260.
In: 42nd ABM Ironmaking Seminar / 13rd ABM Iron Ore Symposium / 6th International Congress on the Science and Technology of Ironmaking,
Rio de Jabeiro,
2012.
ISSN: 2594-357X, DOI 10.5151/2594-357X-22088
