A physicochemical study has been made of roasting and
sintering processes for zinc sulphide ores. The sulphides are
oxidised to metal oxides or sulphates according to conditions,
e.g. temperature and time of heating, composition of surrounding
gases, whether under static or dynamic conditions. The
mechanisms and kinetics of oxidation depend also on surface
area, crystallite and aggregate sizes of the materials and the
presence of any impurities. Thus, for basic oxidation studies,
finely-divided zinc sulphide samples have been precipitated from
solution at various pH levels and in the presence of different
concentrations of eletrolytes. These experimental conditions
have been correlated with changes in phase composition, surface
area and crystallite and aggregate sizes during the formation of
the precipitates and their subsequent ageing in solution at
various temperatures.
The oxidation of the two pure zinc sulphides and five ore
Concentrates were investigated using the techniques of thermal
analysis, gas sorption, X-ray diffraction, optical and electron
microscopy.
B)y use of D.T.A., the effects of temperature, time, grain
size, flow rate and oxygen content of the air on the roasting of
the above materials were determined.
Changes in specific surface und average crystallite size
(deduced from gas sorption) illustrate the influence of the zinc
Sulphate on the sintering of the zinc oxide. Further experiments
show the effect of small amounts of lead and iron sulphides on the
zinc oxide sintering. Results have been correlated with oxidation
rates.
Attempts have been made to apply the basic researches to
problems arising with the industrial roasting and sintering of
natural ores such as spontaneous ignition (during shipment,
storage and processing) and their poor sintering behaviour and
incomplete sulphur removal at higher temperature. Improvements
obtained by the use of lime and silica additives in the
production of sinters have been investigated.
Date of Award | 1973 |
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Original language | English |
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Awarding Institution | |
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OXIDATION OF ZINC SULPHIDE
BASAK, B. (Author). 1973
Student thesis: PhD