The paper presents the possibility of integration of the Corex process, blast furnace, CO2 removal installation and metallurgical combined heat and power (CHP) plant. Such an integration has significant advantages from the technical and environmental points of view. As the Corex export gas (after CO2 removal) is a highly valuable reducing agent, it is proposed to use it as a reducing gas injected to the thermal reserve zone of the blast-furnace process. Such an application leads first of all to a saving of coke. Besides the reduction of the consumption of coke, also the consumption of blast, high-purity oxygen, the amount and lower heating value (LHV) of blast-furnace gas as well as many other parameters are changed. CO2 separation is realized by physical absorption, which has been chosen and analysed as the most appropriate technology in similar applications. Higher LHV of the Corex gas obtained by CO2 removal provides the possibility of its utilization in the gas-and-steam CHP plant. Such a possibility has been also tested by means of energy and economical analyses.
[1]
Dolf Gielen,et al.
CO2 removal in the iron and steel industry
,
2003
.
[2]
Andrzej Ziębik,et al.
Comparative analysis of energy requirements of CO2 removal from metallurgical fuel gases
,
2007
.
[3]
B. Metz.
IPCC special report on carbon dioxide capture and storage
,
2005
.
[4]
Andrzej Ziębik,et al.
Energy analysis of a blast-furnace system operating with the Corex process and CO2 removal
,
2008
.
[5]
J. G. Peacey,et al.
The Iron Blast Furnace: Theory and Practice
,
1979
.
[6]
Giampaolo Manfrida,et al.
Energy Analysis of CO2 Removal in a CHP Plant Fired With Corex Export Gas
,
2004
.