Towards a new Understanding of the Cyclone Separator (9b13c33d-d532-4535-baeb-ceaad4d23e82)

International Mineral Processing Congress

Matthew S. Brennan Vijay Subramanian Rui X. Rong Peter N. Holtham Geoffrey J. Lyman Tim Napier-Munn

Organization:: International Mineral Processing Congress
Pages:: 8
File Size:: 392 KB
Publication Date:: Jan 1, 2003

Abstract

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Studies of the dense medium and classifying cyclone have been conducted using the Fluent computational fluid dynamics code. Experimental measurements of the segregation of medium in a DM cyclone by gamma-ray tomography and the performance of a novel classifying cyclone design have been used to test and interpret the 3D CFD predictions. The predictions of the CFD models were generally plausible, though more work is required to incorporate turbulent mixing of the slurry in the cyclone. The benefits of the novel cyclone design were explained by the model in terms of conditions favouring reduction of short-circuiting at the vortex finder, and the removal of the air core from the wall at the apex. Work is continuing.

Citation

APA: Matthew S. Brennan Vijay Subramanian Rui X. Rong Peter N. Holtham Geoffrey J. Lyman Tim Napier-Munn (2003) Towards a new Understanding of the Cyclone Separator (9b13c33d-d532-4535-baeb-ceaad4d23e82)

MLA: Matthew S. Brennan Vijay Subramanian Rui X. Rong Peter N. Holtham Geoffrey J. Lyman Tim Napier-Munn Towards a new Understanding of the Cyclone Separator (9b13c33d-d532-4535-baeb-ceaad4d23e82). International Mineral Processing Congress, 2003.

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