Add to ORKGM.Ing.In this study it is shown that numerical analysis, and more specifically computational fluid dynamics can be used to investigate, compare, predict and design lining/cooling system combinations for blast furnaces’ in order to ensure longer campaign life and better performance. Three currently available cooling systems namely, copper staves are investigated. These combined with four different refractory materials, namely high alumina, silicon carbide, semi-graphite and graphite, stated in order of increasing thermal conductivity
The detailed process of the heat transfer of the cooling stave in blast furnace (BF) has been system...
The erosion of hearth refractories is the main limitation for a long campaign blast furnace life. An...
The campaign life of a modern blast furnace is determined by the residual thickness of the refractor...
The blast furnace is a metallurgical device which is used to produce molten metal, especially iron. ...
Computational fluid dynamics simulation is a tool to better understand the behavior of the gas-solid...
developing since 1884. Earlier (till 1920’s) the cooling was applied only to hearth and bosh areas. ...
AbstractThe technology of the furnace cooling is very important for the metallurgical industry, beca...
The application of finite element modeling to the analysis and design of furnace refractory linings ...
Blast furnace is a metallurgical device which is used to produce liquid metal as iron and delivered ...
In this paper, a blast furnace gas flow distribution model with variable furnace structure was found...
This paper gives a systemic study and review of blast furnace cooling stave with refractory lining m...
The blast furnace (BF) that converts iron ore into molten iron is an important component in iron-ste...
The blast furnace plays an important role in the steel making industry, and it is a good facility to...
Distributions of liquid iron flow and refractory temperatures have significant influences on the bla...
MasterThis study introduces the feasibility of newly designed board type cooling plate of blast furn...
The detailed process of the heat transfer of the cooling stave in blast furnace (BF) has been system...
The erosion of hearth refractories is the main limitation for a long campaign blast furnace life. An...
The campaign life of a modern blast furnace is determined by the residual thickness of the refractor...
The blast furnace is a metallurgical device which is used to produce molten metal, especially iron. ...
Computational fluid dynamics simulation is a tool to better understand the behavior of the gas-solid...
developing since 1884. Earlier (till 1920’s) the cooling was applied only to hearth and bosh areas. ...
AbstractThe technology of the furnace cooling is very important for the metallurgical industry, beca...
The application of finite element modeling to the analysis and design of furnace refractory linings ...
Blast furnace is a metallurgical device which is used to produce liquid metal as iron and delivered ...
In this paper, a blast furnace gas flow distribution model with variable furnace structure was found...
This paper gives a systemic study and review of blast furnace cooling stave with refractory lining m...
The blast furnace (BF) that converts iron ore into molten iron is an important component in iron-ste...
The blast furnace plays an important role in the steel making industry, and it is a good facility to...
Distributions of liquid iron flow and refractory temperatures have significant influences on the bla...
MasterThis study introduces the feasibility of newly designed board type cooling plate of blast furn...
The detailed process of the heat transfer of the cooling stave in blast furnace (BF) has been system...
The erosion of hearth refractories is the main limitation for a long campaign blast furnace life. An...
The campaign life of a modern blast furnace is determined by the residual thickness of the refractor...