Dong Fu scite author profile

A stable skull layer formed on the inner surface of the hearth could effectively protect the lining and extend blast furnace campaign life. This is the first comprehensive work of using integrated heat transfer, fluid flow dynamics and solidification numerical simulation to investigate skull formation phenomena in a blast furnace hearth. The impact of hearth design and furnace operation parameters on skull formation is examined, including lining property and structure, cooling water temperature and flow rate, hot metal production rate, temperature and viscosity, and cast practice. The findings from this study are compared with operating experience of United States Steel blast furnaces.

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Parametric Studies on PCI Performances

Zheng

Zhou

et al. 2011

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The pulverized coal injection (PCI) is widely utilized in the iron-making blast furnaces for its economic and environmental advantages. However, due its complexity, flow dynamics and chemical kinetics of PCI inside the raceway has not been well understood. Combustions of PCI and coke inside the raceway can be influenced by tuyere operation parameters. In this paper, a comprehensive three dimensional (3-D) multiphase flow computational fluid dynamics (CFD) model was utilized to investigate the PCI and coke combustion in the lower part of a blast furnace. Systematic parametric studies were conducted to analyze the effects of the natural gas injection, coal injection, PCI rate, and oxygen enrichment on the combustion performance, which include coal burnt-out rate, coke consumption rate, raceway shape, raceway temperature and etc.

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Comprehensive Numerical Modeling of the Blast Furnace Ironmaking Process

Zhou

Tang

Wang

et al. 2016

JOM

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Virtual Reality Visualization of CFD Simulation for Iron/Steelmaking Processes

Chen

et al. 2010

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Computational Fluid Dynamics (CFD) has become a powerful simulation technology used in iron/steelmaking industrial applications for process design and optimization to save energy. In this paper, a Virtual Engineering (VE) application is presented that uses Virtual Reality (VR) to visualize CFD results in a tracked immersive projection system. The interactive Virtual Reality (VR) was specifically adapted for CFD post-processing to better understand CFD results and more efficiently communicate with non-CFD experts. The VE application has been utilized to make an assessment in terms of visualization and optimization for steelmaking furnaces. The immersive system makes it possible to gain a quick, intuitive understanding of the flow characteristics and distributions of pressure, temperature, and species properties in the industrial equipment. By introducing the virtual engineering environment, the value of CFD simulations has been greatly enhanced to allow engineers to gain much needed process insights for the design and optimization of industrial processes.

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Numerical study of a tangentially fired boiler for reducing steam tube overheating

Tang

Johnson

et al. 2016

Applied Thermal Engineering

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A comprehensive numerical and experimental study on a 200 MW tangentially fired boiler firing metallurgical gases was conducted. A three-dimensional Computational Fluid Dynamics (CFD) model was developed to simulate the flow characteristics and combustion process inside the boiler. The Eddy Dissipation Concept combustion model was applied to take into account detailed turbulent interactive reacting chemical reactions. Field experiments were also conducted on the original tangentially fired boiler under different operation conditions. Flame profiles videos were captured during experiments. A quick comparison of the experimental flame profile with numerical simulation results shows good agreement. Wall steam tubes overheating problem was observed, and the hot spots were identified based on a wide range of typical operation conditions. The effect of total fuel input and natural gas percentage on the furnace wall temperature were investigated.

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Integration of Advanced Simulation and Visualization for Manufacturing Process Optimization

Zhou

Wang

Tang

et al. 2016

JOM

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Dong Fu

Mathematical modeling of blast furnace burden distribution with non-uniform descending speed

CFD modeling of multiphase reacting flow in blast furnace shaft with layered burden

Investigation of Skull Formation in a Blast Furnace Hearth

Parametric Studies on PCI Performances

Comprehensive Numerical Modeling of the Blast Furnace Ironmaking Process

Virtual Reality Visualization of CFD Simulation for Iron/Steelmaking Processes

Numerical study of a tangentially fired boiler for reducing steam tube overheating

Integration of Advanced Simulation and Visualization for Manufacturing Process Optimization

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