论文信息 - Residence time distribution of an industrial mechanically agitated cyanidation tank

Residence time distribution of an industrial mechanically agitated cyanidation tank

The flow behavior of the liquid phase of an industrial gold leaching tank is studied using lithium chloride tracer. The residence time distribution is interpreted using an arrangement of simple ideal reactors, the parameters of which are calibrated by a standard least squares method. The measured net volume of the reactor is 62% of its nominal volume, due to the space occupied by the agitation assembly, the gas phase and the accumulation of solid material on the tank walls. The results show that the tank mixing behavior is dominated by a perfectly mixed volume, corrupted by the presence of bypass and stagnant zones. The mixing pattern is modeled as two parallel flows, one which contains the dominant perfect mixer and a series of perfect mixer reactors with cross-flow to match the stagnant zone, and the other one which account for the bypass represented by a series of perfectly mixed reactors.

Daniel Hodouin | L.R.P. de Andrade Lima | D. Hodouin | L. D. A. Lima

[1] J. Marsden,et al. The chemistry of gold extraction , 1992 .

[2] D. G. Dixon. The multiple convolution integral: A new method for modeling multistage continuous leaching reactors , 1996 .

[3] F. K. Crundwell,et al. Progress in the mathematical modelling of leaching reactors , 1995 .

[4] Thomas E. Marlin,et al. Process Control: Designing Processes and Control Systems for Dynamic Performance , 1995 .

[5] Backmixing in channel reactors with high-strength bottom gas injection , 1994 .

[6] O. Levenspiel. Chemical Reaction Engineering , 1972 .

[7] E. B. Nauman,et al. Mixing in continuous flow systems , 1983 .

[8] Daniel Hodouin,et al. Residence time distributions in SX–EW equipment , 1998 .

[9] David Mautner Himmelblau,et al. Process Analysis and Simulation. Deterministic Systems , 1968 .

[10] Juan Yianatos,et al. Hydrodynamic and metallurgical characterization of industrial flotation banks for control purposes , 2001 .

[11] D Lelinski,et al. Analysis of the residence time distribution in large flotation machines , 2002 .

[12] M. D. Everell,et al. Residence Time Distribution and Mass Transport Characteristics of Large Industrial Grinding Mills , 1980 .

[13] P. V. Danckwerts. Continuous flow systems. Distribution of residence times , 1995 .

[14] P. V. Danckwerts. Continuous flow systems , 1953 .

[15] R. Shinnar,et al. Representation and Evaluation of Residence Time Distributions , 1963 .