Adiabatic Carbon Rate of Alternative Ironmaking Processes to Produce Hot Metal Journal Articles

abstract

• AbstractFrom economic viability and sustainable development of view, the future alternative ironmaking processes, in general, may be classified into two representative routes, “Pre‐reduction‐Smelting reduction” process and “Direct reduction‐Melting” process. In the present work, aimed for hot metal production, the carbon rate (in kg tHM−1) is considered as the yardstick for the measurement of the “goodness” of these two processes, because it reflects the consumption of coal and energy, and the amount of carbon dioxide eventually to be emitted to atmosphere. By the thermodynamic calculation, under the idealized conditions, the total adiabatic carbon rate along “Direct reduction‐Melting” process is approximately 145 kg tHM−1 lower than that along “Pre‐reduction‐Smelting reduction” process. Therefore, direct reduction would likely lead to an alternative process with much lower carbon rate, and it should be reasonable and successfully developed.

authors

• Jiang, Xin
• Wang, Lin
• Shen, Fengman
• Lu, Wei-kao

status

• published 

publication date

• January 2014

has subject area

• 0910 Manufacturing Engineering (FoR)
• 0912 Materials Engineering (FoR)
• 0914 Resources Engineering and Extractive Metallurgy (FoR)
• Mining & Metallurgy (Science Metrix)

published in

• Steel Research International  Journal

keywords

• Metallurgy & Metallurgical Engineering
• OPTIMIZATION
• REDUCTION
• Science & Technology
• Technology
• alternative ironmaking
• carbon rate
• direct reduction
• smelting reduction

Digital Object Identifier (DOI)

• 10.1002/srin.201200339

start page

• 35

end page

• 43

volume

• 85

issue

• 1