Demonstration of the conditions conducive to agglomeration of zinc calcine in fluidized bed roasters |
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| Authors: | J. Pierre Constantineau Sylvie C. Bouffard John R. Grace Greg G Richards C. Jim Lim |
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| Affiliation: | aMatrikon Inc., Suite 165, 10271 Shellbridge Way, Richmond, BC, Canada V6X 2W8;bProduct Quality and Hydrometallurgy, BHP Billiton Nickel West, 152-158 St. Georges Terrace, Perth, Western Australia 6000, Australia;cUniversity of British Columbia, Department of Chemical and Biological Engineering, Vancouver, Canada V6T 1Z3;dTeck Resources Ltd., Applied Research & Technology Group, Trail, British Columbia, Canada V1R 4L8 |
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| Abstract: | Agglomeration in the fluidized bed roasting of zinc sulphide concentrate was investigated in a continuous pilot-scale fluidized bed roaster. Alone or together, low stoichiometric excess oxygen (<10%) and high temperature (>940 °C) contributed most significantly to agglomeration of zinc calcine particles. Only one test – with 0% excess oxygen at 940 °C – led to severe agglomeration and subsequent defluidisation. Neither large initial particle size nor low gas superficial velocity promoted agglomeration as much as the combination of low stoichiometric excess oxygen and high temperature.Lead sulphide, a common impurity in zinc sulphide concentrate, also appeared to have played a key role in agglomeration. Both low excess oxygen and high temperature favoured a high partial pressure of sublimated lead sulphide. Upon contact with oxygen, lead sulphide oxidised to lead oxide, which then precipitated as a liquid onto the rather inert bed particles. As a liquid, lead oxide formed coatings that caused small particles to adhere to larger ones, as well as liquid bridges that bound particles together. |
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| Keywords: | Zinc sulphide Fluidized bed Roasting Agglomeration Temperature Oxygen content |
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