Metallurgical processes often involve multi-phase flows of molten metals or molten slags. No doubt, CFD is a powerful tool to describe such flows, but for complex flow phenomena experimental data are needed for code validation. As for many melts such CFD grade data do not exist, liquid metal model experiments are more and more used in order to fill this gap. Several examples of it are described here.publishedVersio
In secondary steelmaking, the gas-stirred ladle refining process is enhanced by applying a vacuum. A...
Slag fuming is a reductive treatment process for molten zinciferous slags for extracting zinc in the...
Computational methods have become reliable tools in many disciplines for research and industrial des...
Metallurgical processes often involve multi-phase flows of molten metals or molten slags. No doubt, ...
Recent advancement in the high performance computing facilities has enabled Computational Fluid Dyna...
Multiphase flow models have been improved significantly during the last two decades. Together with t...
High temperature processing of raw materials in metals production and recycling often involves compl...
The use of computational modelling in examining process engineering issues is very powerful. It has ...
The pyrometallurgical production of metals is a mature technology with many of the technologies used...
Direct smelting operations involve the strong interaction of a wide range of complex physico-chemica...
Slag fuming is a reductive treatment process for molten zinciferous slags for extracting zinc in the...
Slag fuming is a process of extracting zinc from molten slag in the form of metal vapor by injecting...
Slag fuming is a process of extracting zinc from molten slag in the form of metal vapor by injecting...
Over the past two decades, multi-physical material process simulation techniques have been developed...
In the context of several high temperature metallurgical processes including blast furnaces, a cold ...
In secondary steelmaking, the gas-stirred ladle refining process is enhanced by applying a vacuum. A...
Slag fuming is a reductive treatment process for molten zinciferous slags for extracting zinc in the...
Computational methods have become reliable tools in many disciplines for research and industrial des...
Metallurgical processes often involve multi-phase flows of molten metals or molten slags. No doubt, ...
Recent advancement in the high performance computing facilities has enabled Computational Fluid Dyna...
Multiphase flow models have been improved significantly during the last two decades. Together with t...
High temperature processing of raw materials in metals production and recycling often involves compl...
The use of computational modelling in examining process engineering issues is very powerful. It has ...
The pyrometallurgical production of metals is a mature technology with many of the technologies used...
Direct smelting operations involve the strong interaction of a wide range of complex physico-chemica...
Slag fuming is a reductive treatment process for molten zinciferous slags for extracting zinc in the...
Slag fuming is a process of extracting zinc from molten slag in the form of metal vapor by injecting...
Slag fuming is a process of extracting zinc from molten slag in the form of metal vapor by injecting...
Over the past two decades, multi-physical material process simulation techniques have been developed...
In the context of several high temperature metallurgical processes including blast furnaces, a cold ...
In secondary steelmaking, the gas-stirred ladle refining process is enhanced by applying a vacuum. A...
Slag fuming is a reductive treatment process for molten zinciferous slags for extracting zinc in the...
Computational methods have become reliable tools in many disciplines for research and industrial des...