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• W2003757954 abstract "Abstract Mathematical modelling is increasingly being used to improve technologies in mineral processing and extractive metallurgy. Models range in complexity from those based on statistical regression of experimental data to detailed microphenomenological models which aim to represent all the relevant physical and chemical phenomena which occur. Central to many of the mathematical models of the latter type is flow simulation. Because of the complexity of the physical and chemical phenomena involved in minerals processing, the development of detailed flow models usually requires a considerable amount of research. On the other hand, the advantage of such a phenomenological model is that it can used as a truly predictive tool, unlike experimentally derived correlations which can only be used with confidence to interpolate between measurements. In addition, the understanding of the entire flow field gained from flow models has the potential of suggesting non-intuitive processes or devices. In recent years computer packages for fluid flows simulation such as FLUENT and PHOENICS have become available, which reduce the amount of effort needed to develop such models. The paper reviews various packages that are available, and compares the advantages and disadvantages of packages with user-written codes. Examples of operations in which fluid flow plays an important part and which can benefit from flow simulation are hydrocyclones, pneumatic and hydraulic conveying of solids, blast furnaces, flash smelting, aluminium reduction cells, and bath-based ferrous and non-ferrous smelting. Some recent developments in fluid flow simulation of hydrocyclones and smelting processes are given." @default.
• W2003757954 created "2016-06-24" @default.
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• W2003757954 date "1991-01-01" @default.
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• W2003757954 title "Flow simulation in minerals engineering" @default.
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• W2003757954 doi "https://doi.org/10.1016/0892-6875(91)90060-9" @default.
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