Hydrocyclones
Key Benefits Include:
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optimise performance through on-line measurement of air core diameter
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diagnose fault conditions
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visualise conditions within hydrocyclones
Introduction
In a hydrocyclone a solid/liquid mixture is pumped tangentially into a conical vessel. The resulting centrifugal forces cause a vortex to form which encourages the solids to swirl to the bottom of the cone while the liquids exit at the top. They have been used extensively in the minerals processing and oil & gas sectors; they are also increasingly being used for more difficult separations such as in the nuclear industry.
The challenge is to ensure that the vortex is formed and maintained to achieve the separation. Without the vortex the operation fails. The measurement challenge is to actually measure the vortex from outside the hydro cyclone, as again any internal measurement will itself disturb the vortex.
Solution
Considerable work has been done in applying process tomography to hyrdocylones. This has encompassed practical studies using process tomography to identify fault conditons, optimal operating conditions and gradual changes in performance.
Also work has been carried out on computation fluid dynamics (CFD), where process tomography has been used to test and improve CFD code.
An additional area of interest is in parametric reconstruction. The analysis of hydrocyclones was the first area where this technique was successfully used to improve the spatial resolution of reconstructed images. By noting the symmetry in the resistivity profile of a hydrocyclone under a wide range of operating conditions, it was possible to move away from “black box” reconstruction to using a priori information to deliver approximately 2 orders of magnitude improvement in accuracy of resolving key process features.
Our p2000 is the most suitable instrument for hydrocyclone studies.
References
Williams et al. (1999) Industrial Monitoring of Hydrocyclone Operation, Minerals Engineering, Vol. 12, No. 10, pp 1245-1252
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