Investigation on interface resistance between alternating layers in the upper of blast furnace

In order to mitigate CO2 emissions from steel industry, decreasing coke rate by establishing oxygen blast furnace ironmaking process is a favorable way. Yet every improvement in productivity is fundamentally related to better flow distribution of gas across a particle bed and hence total pressure dr...

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Published in	Powder technology Vol. 246; pp. 73 - 81
Main Authors	Liu, Jinzhou, Xue, Qingguo, She, Xuefeng, Wang, Jingsong
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 01.09.2013 Elsevier
Subjects	Applied sciences carbon dioxide Chemical engineering emissions equations Ergun equation Exact sciences and technology Hydrodynamics of contact apparatus industry Interface resistance Layered burden Miscellaneous oxygen Oxygen blast furnace Pore-throat equation porosity Pressure drop Solid-solid systems steel Oxygen blast furnace Pressure drop Interface resistance Pore-throat equation Ergun equation Layered burden Carbon dioxide Hydrodynamics Steel Flow field Layer thickness Blast furnace Gas flow Porosity
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Abstract	In order to mitigate CO2 emissions from steel industry, decreasing coke rate by establishing oxygen blast furnace ironmaking process is a favorable way. Yet every improvement in productivity is fundamentally related to better flow distribution of gas across a particle bed and hence total pressure drop in granular zone is a leading parameter affected by interfacial resistance between alternating layers of coke and metallic burden. In this work, the existence and change rule of interface resistance with different parameters such as flow rate, interface numbers, layer thickness are confirmed. A new pore-throat equation proposed by J.S. Wu and B.M. Yu [30] is imported to study pressure drop of gas flow through stock column in blast furnace and compared with well-known Ergun's equation. Furthermore, the relationships between interface resistance and physical parameters involved in this study is explored and combined with this new pore-throat equation to be a new modified equation. Meanwhile, its adaptability is verified for various conditions. On the basis of modified equation, interfacial porosity with flow rate is discussed and linked to microphenomenon of previous work and achievement of other researchers. [Display omitted] •Existence and influence of interfacial resistance during experiment are confirmed.•New pore–throat model is imported and verified to be more suitable.•Relationship between interface resistance and different parameters is deduced.•The new imported equation is corrected and local interface porosity is studied.
AbstractList	In order to mitigate CO₂ emissions from steel industry, decreasing coke rate by establishing oxygen blast furnace ironmaking process is a favorable way. Yet every improvement in productivity is fundamentally related to better flow distribution of gas across a particle bed and hence total pressure drop in granular zone is a leading parameter affected by interfacial resistance between alternating layers of coke and metallic burden. In this work, the existence and change rule of interface resistance with different parameters such as flow rate, interface numbers, layer thickness are confirmed. A new pore-throat equation proposed by J.S. Wu and B.M. Yu [30] is imported to study pressure drop of gas flow through stock column in blast furnace and compared with well-known Ergun's equation. Furthermore, the relationships between interface resistance and physical parameters involved in this study is explored and combined with this new pore-throat equation to be a new modified equation. Meanwhile, its adaptability is verified for various conditions. On the basis of modified equation, interfacial porosity with flow rate is discussed and linked to microphenomenon of previous work and achievement of other researchers. In order to mitigate CO2 emissions from steel industry, decreasing coke rate by establishing oxygen blast furnace ironmaking process is a favorable way. Yet every improvement in productivity is fundamentally related to better flow distribution of gas across a particle bed and hence total pressure drop in granular zone is a leading parameter affected by interfacial resistance between alternating layers of coke and metallic burden. In this work, the existence and change rule of interface resistance with different parameters such as flow rate, interface numbers, layer thickness are confirmed. A new pore-throat equation proposed by J.S. Wu and B.M. Yu [30] is imported to study pressure drop of gas flow through stock column in blast furnace and compared with well-known Ergun's equation. Furthermore, the relationships between interface resistance and physical parameters involved in this study is explored and combined with this new pore-throat equation to be a new modified equation. Meanwhile, its adaptability is verified for various conditions. On the basis of modified equation, interfacial porosity with flow rate is discussed and linked to microphenomenon of previous work and achievement of other researchers. [Display omitted] •Existence and influence of interfacial resistance during experiment are confirmed.•New pore–throat model is imported and verified to be more suitable.•Relationship between interface resistance and different parameters is deduced.•The new imported equation is corrected and local interface porosity is studied.
Author	Xue, Qingguo She, Xuefeng Liu, Jinzhou Wang, Jingsong
Author_xml	– sequence: 1 givenname: Jinzhou surname: Liu fullname: Liu, Jinzhou – sequence: 2 givenname: Qingguo surname: Xue fullname: Xue, Qingguo email: xueqingguo@ustb.edu.cn – sequence: 3 givenname: Xuefeng surname: She fullname: She, Xuefeng – sequence: 4 givenname: Jingsong surname: Wang fullname: Wang, Jingsong
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Keywords	Oxygen blast furnace Pressure drop Interface resistance Pore-throat equation Ergun equation Layered burden Carbon dioxide Hydrodynamics Steel Flow field Layer thickness Blast furnace Gas flow Porosity
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Snippet	In order to mitigate CO2 emissions from steel industry, decreasing coke rate by establishing oxygen blast furnace ironmaking process is a favorable way. Yet... In order to mitigate CO₂ emissions from steel industry, decreasing coke rate by establishing oxygen blast furnace ironmaking process is a favorable way. Yet...
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SubjectTerms	Applied sciences carbon dioxide Chemical engineering emissions equations Ergun equation Exact sciences and technology Hydrodynamics of contact apparatus industry Interface resistance Layered burden Miscellaneous oxygen Oxygen blast furnace Pore-throat equation porosity Pressure drop Solid-solid systems steel
Title	Investigation on interface resistance between alternating layers in the upper of blast furnace
URI	https://dx.doi.org/10.1016/j.powtec.2013.05.011
Volume	246
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