Operation Trial of Hydrogenous Gas Injection of COURSE50 Project at an Experimental Blast Furnace

Abstract: COURSE50 (CO2 ultimate reduction in steelmaking process by innovative technology for Cool Earth 50) carried out COG and reformed COG (RCOG) injection operation trials at LKAB's experimental blast furnace in Luleå in cooperation with LKAB and Swerea MEFOS. Operation trials were successfully carried out. Input of C in both COG and RCOG injection periods decreased comparing the base period, because of increase in H2 reduction instead of C direct reduction that is a huge endothermic reaction. However poor penetrat… Show more

“…8) If a composite with large amounts of C, a high crushing strength, high reduction reactivity, and low RDI can be prepared gaseous-tar, it may be applicable for blast furnaces in conventional or advanced iron-making processes (COURSE50). [9][10][11] For the above-mentioned composite preparation, it is considered that the utilization of the conventional process is effective. In other words, if COG containing gaseous-tar produced from the cokemaking process and its sensible heat can be utilized for composite preparation, the production can be completed in integrated iron steel plants.…”

Fate of Nitrogen and Sulfur during Reduction Process of Carbon-containing Pellet Prepared by Vapor Deposition of Gaseous-Tar and the Influences of the Hetero Elements on the Reduction Behavior and Crushing Strength

“…8) If a composite with large amounts of C, a high crushing strength, high reduction reactivity, and low RDI can be prepared gaseous-tar, it may be applicable for blast furnaces in conventional or advanced iron-making processes (COURSE50). [9][10][11] For the above-mentioned composite preparation, it is considered that the utilization of the conventional process is effective. In other words, if COG containing gaseous-tar produced from the cokemaking process and its sensible heat can be utilized for composite preparation, the production can be completed in integrated iron steel plants.…”

Fate of Nitrogen and Sulfur during Reduction Process of Carbon-containing Pellet Prepared by Vapor Deposition of Gaseous-Tar and the Influences of the Hetero Elements on the Reduction Behavior and Crushing Strength

“…In addition to conventional carbon reduction and energy saving techniques, many studies on novel technologies for reducing CO 2 emissions from the steel works are being carried out from the mid-and longterm viewpoints. [1][2][3][4][5] Although the evolution of the blast furnace with the aim of realizing low carbon in the steel works has attracted considerable attention from the viewpoint of reducing CO 2 emissions, a more proactive fundamental review of the ironmaking process is needed. From these various viewpoints, technology development to reduce carbon consumption in the blast furnace is considered to be a priority issue for the steel works.…”

Evolution of Blast Furnace Process toward Reductant Flexibility and Carbon Dioxide Mitigation in Steel Works

“…The diameter of the shaft tuyere was 32 mm, and the gas velocity was approximately 45 m/s at an injection rate of 225 Nm 3 /h. The penetration depth of RCOG into the furnace was detected using the lower shaft probe located 1.16 m above the shaft tuyere level [5].…”

“…Since FY2008, we have promoted technology development through the innovative COURSE50 (CO 2 Ultimate Reduction in Steelmaking process by innovative technology for cool Earth 50) R&D program [1][2][3][4][5][6], which aims at mitigating CO 2 emissions in the ironmaking process. Figure 1 shows an outline of the COURSE50 project and its two major research activities.…”

Sustainable Aspects of CO2 Ultimate Reduction in the Steelmaking Process (COURSE50 Project), Part 1: Hydrogen Reduction in the Blast Furnace