ISSN 2594-357X
45º Ironmaking / 16º Iron Ore / 3º Agglomeration — vol. 45, num.45 (2015)
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This paper presents a new instrument for real-time detection of excessively coarse material in the overflow pipes of individual hydrocyclones using a non-invasive acoustic measurement technique. The hydrocyclone is an important device used in mineral processing beneficiation circuits for classification of mineral slurries by particle size. It separates a single input stream into two output streams; an underflow of coarse particles that undergo additional grinding for further size reduction, and an overflow stream of finer particles that typically goes directly into a flotation circuit for recovery of the desired mineral. However the hydrocyclone is a major piece of equipment in the beneficiation process that has no instrumentation for directly measuring its performance. The parameters currently measured – inlet pressure, feed flow rate, feed flow density – are common to the entire hydrocyclone cluster which typically has three to twelve hydrocyclones. Thus no information is available to detect individual hydrocyclones that are operating poorly. The system described in this paper detects the presence of unwanted excessively coarse material in the overflow stream of a hydrocyclone using sensors mounted to the exterior pipe surface. It provides real-time monitoring, trending and alarming of the coarse material level. This enables operators to identify poorly performing hydrocyclones, and enables corrective action to reduce or eliminate the coarse material discharge. Improving the classification efficiency of individual hydrocyclones will improve the overall classification efficiency of a hydrocyclone cluster. This leads to less variation in the particle size distribution and slurry density in the flotation feed, which will in turn improve overall mineral recovery. The reduction of unwanted coarse material in the flotation feed reduces the accumulation of that material in flotation cells. This can lead to equipment damage, and unplanned shutdowns due to events such as blocked dart valves.
1 Gysling, D.L., Loose, D.H. and van der Spek, A.M. (2005). Clamp-On Sonar-Based Volumetric Flow Rate and Gas Volume Fraction Measurement for Industrial Applications. Flomeko, 6-9 June, 2005. 2 O’Keefe, C., Viega, J. and Fernald, M. (2007). Application of Passive Sonar Technology to Minerals Processing and Oil Sands Applications. Proceedings of the 39th Annual Meeting of the Canadian Mineral Processors (2007), pp. 429-457. 3 Cirulis, D. and Russell, J. (2011). Cyclone Monitoring System Improves Operations at KUC’s Copperton Concentrator. Engineering & Mining Journal, volume 212 (number 12), pp. 44-49.
Palavras-chave
Hydrocyclones, Coarse material, Sound, Flotation, Classification, Classifiers, Particle size, Slurry, Beneficiation, Comminution, Overflow
Overflow
Como citar
Russell, Jerin;
Cirulis, Dylan;
Maron, Robert John;
O'Keefe, Christian;
Rothman, Paul;
Newton, David.
OPTIMIZATION OF HYDROCYCLONE CLASSIFICATION BY ON-LINE DETECTION OF COARSE MATERIAL IN THE OVERFLOW STREAM
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p. 78-84.
In: 45º Ironmaking / 16º Iron Ore / 3º Agglomeration,
Rio de Janeiro,
2015.
ISSN: 2594-357X
, DOI 10.5151/4444-4444-26182