Shift From Coke to Coal Using Direct Reduction Method and Challenges
Ironmaking involves the separation of iron ores. It not only represents the first step in steelmaking but also is the most capital-intensive and energy-intensive process in the production of steel. The main route for producing iron for steelmaking is to use the blast furnace, which uses metallurgica...
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| Published in | Journal of iron and steel research, international Vol. 16; no. 2; pp. 1 - 5 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Singapore
Elsevier Ltd
01.02.2009
Springer Singapore |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1006-706X 2210-3988 |
| DOI | 10.1016/S1006-706X(09)60018-2 |
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| Abstract | Ironmaking involves the separation of iron ores. It not only represents the first step in steelmaking but also is the most capital-intensive and energy-intensive process in the production of steel. The main route for producing iron for steelmaking is to use the blast furnace, which uses metallurgical coke as the reductant. Concerns over the limited resources, the high cost of coking coals, and the environmental impacts of coking and sinter plants have driven steelmakers to develop alternative ironmaking processes that can use non-coking coals to reduce iron ores directly. Since the efficiency and productivity of modern large capacity blast furnaces will be difficult to surpass, blast furnaces will continue to retain their predominant position as the foremost ironmaking process for some time to come. The alternative ironmaking processes are therefore expected to play an increasingly significant role in the iron and steel industry, especially in meeting the needs of small-sized local and regional markets. It is likely that the importance of direct reduced iron (DRI) and hot metal as sources of virgin iron will continue to increase, especially in the developing countries where steelmaking is, and will be, primarily based on electric arc furnace (EAF) minimills. Consequently, the challenges that are faced by the new technology have to be embraced. |
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| AbstractList | Ironmaking involves the separation of iron ores. It not only represents the first step in steelmaking but also is the most capital-intensive and energy-intensive process in the production of steel. The main route for producing iron for steelmaking is to use the blast furnace, which uses metallurgical coke as the reductant. Concerns over the limited resources, the high cost of coking coals, and the environmental impacts of coking and sinter plants have driven steelmakers to develop alternative ironmaking processes that can use non-coking coals to reduce iron ores directly. Since the efficiency and productivity of modern large capacity blast furnaces will be difficult to surpass, blast furnaces will continue to retain their predominant position as the foremost ironmaking process for some time to come. The alternative ironmaking processes are therefore expected to play an increasingly significant role in the iron and steel industry, especially in meeting the needs of small-sized local and regional markets. It is likely that the importance of direct reduced iron (DRI) and hot metal as sources of virgin iron will continue to increase, especially in the developing countries where steelmaking is, and will be, primarily based on electric arc furnace (EAF) minimills. Consequently, the challenges that are faced by the new technology have to be embraced. Ironmaking involves the separation of iron ores. It not only represents the first step in steelmaking but also is the most capital-intensive and energy-intensive process in the production of steel. The main route for producing iron for steelmaking is to use the blast furnace, which uses metallurgical coke as the reductant. Concerns over the limited resources, the high cost of coking coals, and the environmental impacts of coking and sinter plants have driven steelmakers to develop alternative ironmaking processes that can use non-coking coals to reduce iron ores directly. Since the efficiency and productivity of modern large capacity blast furnaces will be difficult to surpass, blast furnaces will continue to retain their predominant position as the foremost ironmaking process for some time to come. The alternative ironmaking processes are therefore expected to play an increasingly significant role in the iron and steel industry, especially in meeting the needs of small-sized local and regional markets. It is likely that the importance of direct reduced iron (DRI) and hot metal as sources of virgin iron will continue to increase, especially in the developing countries where steelmaking is, and will be, primarily based on electric arc furnace (EAF) minimills. Consequently, the challenges that are faced by the new technology have to be embraced. |
| Author | Okonkwo Paul Chukwuleke CAI Jiu-ju Sam Chukwujekwu XIAO Song |
| AuthorAffiliation | Deakin University, Geelong Campus, Waurn Ponds, Vic 3217, Australia Metallurgy, Northeastern University, Shenyang 110004, Liaoning, China School of Material,Anambra State'University, Uli 999062, Anambra State, Nigeria Mechanical Engineering Department, Anambra State'University, Uli 999062, Anambra State, Nigeria |
| Author_xml | – sequence: 1 givenname: Okonkwo Paul surname: Chukwuleke fullname: Chukwuleke, Okonkwo Paul email: pauloke@yahoo.com organization: Deakin University, Geelong Campus, Waurn Ponds, Vic 3217, Australia – sequence: 2 givenname: Jiu-ju surname: CAI fullname: CAI, Jiu-ju organization: School of Material and Metallurgy, Northeastern University, Shenyang 110004, Liaoning, China – sequence: 3 givenname: Sam surname: Chukwujekwu fullname: Chukwujekwu, Sam organization: Mechanical Engineering Department, Anambra State University, Uli 999062, Anambra State, Nigeria – sequence: 4 givenname: Song surname: XIAO fullname: XIAO, Song organization: School of Material and Metallurgy, Northeastern University, Shenyang 110004, Liaoning, China |
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| Keywords | iron ore blast furnace sintering coke flux coal iron-bearing material |
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| Notes | iron ore 11-3678/TF blast furnace sintering F768.2 TF55 coke flux coal iron-bearing material; coke; flux; coal; blast furnace; sintering; iron ore iron-bearing material |
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| References | LV, XIE (bib3) 2001; 2520 Watanabe (bib5) 1961 ZHOU, LIU, CHEN (bib1) 2004 ZHOU, WANG (bib2) 2004; 21 Nyquist (bib4) 1961 WatanabeSAgglomeration International Symposium [M]1961New YorkInterscience Publishers NyquistOAgglomeration Int’l Symp [M]1961New YorkInter-science Publishers ZhouL-yWangPDevelopment and Application of Software for Energy Analyses of Blast FurnaceJournal of Anhui University of Technology (Natural Science Edition)2004211292056559 LvBXieA-gThe Simulation Application of the Effect of Materials Flowing on Energy-Consumption [J]Energy for Metallurgical Industry20012029 ZhouYLiuM-hChenW-hAnalysis on the Influence of Zinc to the Blast Furnace Smelting [A]2004BeijingMetallurgical Industry Press434 Y Zhou (1602001_CR1) 2004 O Nyquist (1602001_CR4) 1961 B Lv (1602001_CR3) 2001; 20 S Watanabe (1602001_CR5) 1961 L-y Zhou (1602001_CR2) 2004; 21 |
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| SubjectTerms | Applied and Technical Physics blast furnace coal coke Engineering flux iron ore iron-bearing material Machines Manufacturing Materials Engineering Materials Science Metallic Materials Physical Chemistry Processes sintering 可口可乐 炼铁工艺 生产过程 直接还原法 直接还原铁 钢铁工业 铁矿石 |
| Title | Shift From Coke to Coal Using Direct Reduction Method and Challenges |
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