Computational fluid dynamics (CFD) software technology has formed the basis of many investigations into the behavior and optimization of primary iron and steelmaking processes for the last 25+ years. The objective of this contribution is to review the progress in CFD technologies over the last decade or so and how this can be brought to bear in advancing the process analysis capability of primary ferrous operations. In particular, progress on key challenges such as compute performance, fluid-structure transformation and interaction, and increasingly complex geometries are highlighted
In the iron and steel making process,Direct Reduction Plant (DRP) is the most important components w...
This project involves an exploration of how Computational Fluid Dynamics (CFD) software can be utili...
Computational Fluid Dynamics (CFD) is increasingly used in the oil and gas industry. The present art...
High temperature processing of raw materials in metals production and recycling often involves compl...
Computational fluid dynamics (CFD) is becoming a pow-erful tool to study turbulent fluid flow in com...
This book contains the proceedings of the symposium “CFD Modeling and Simulation in Materials Proces...
The development of the main sectors of the steelmaking industry is followed directly by the need to ...
dissertationA novel ironmaking technology is being developed in a research group at the University o...
The transport of fluid, heat,and particles (bubbles and solid inclusions) in flowing molten steel is...
Multiphase flow models have been improved significantly during the last two decades. Together with t...
Recent advancement in the high performance computing facilities has enabled Computational Fluid Dyna...
The design of thermal processes in the food industry has undergone great developments in the last tw...
Liquid iron for steel production is produced mainly in a conventional blast furnace (BF). New iron-m...
2D CFD model of rotary kiln of sponge iron process is developed to study the effects of angle of inc...
Three-dimensional single phase (liquid steel) and multi-phase (liquid steel and argon gas) k-ε turbu...
In the iron and steel making process,Direct Reduction Plant (DRP) is the most important components w...
This project involves an exploration of how Computational Fluid Dynamics (CFD) software can be utili...
Computational Fluid Dynamics (CFD) is increasingly used in the oil and gas industry. The present art...
High temperature processing of raw materials in metals production and recycling often involves compl...
Computational fluid dynamics (CFD) is becoming a pow-erful tool to study turbulent fluid flow in com...
This book contains the proceedings of the symposium “CFD Modeling and Simulation in Materials Proces...
The development of the main sectors of the steelmaking industry is followed directly by the need to ...
dissertationA novel ironmaking technology is being developed in a research group at the University o...
The transport of fluid, heat,and particles (bubbles and solid inclusions) in flowing molten steel is...
Multiphase flow models have been improved significantly during the last two decades. Together with t...
Recent advancement in the high performance computing facilities has enabled Computational Fluid Dyna...
The design of thermal processes in the food industry has undergone great developments in the last tw...
Liquid iron for steel production is produced mainly in a conventional blast furnace (BF). New iron-m...
2D CFD model of rotary kiln of sponge iron process is developed to study the effects of angle of inc...
Three-dimensional single phase (liquid steel) and multi-phase (liquid steel and argon gas) k-ε turbu...
In the iron and steel making process,Direct Reduction Plant (DRP) is the most important components w...
This project involves an exploration of how Computational Fluid Dynamics (CFD) software can be utili...
Computational Fluid Dynamics (CFD) is increasingly used in the oil and gas industry. The present art...