Previous research on the precipitation and oxidation of lead
sulphide has been reviewed especially in relation to thermodynamic
and kinetic studies.
Samples of lead sulphide have been precipitated from aqueous
solutions of lead salts under varying conditions of pH, concentration,
temperature and time of ageing. The precipitates were examined by
optical and electron microscopy, X-ray diffraction and gas sorption
analysis. Their crystallinity, particle size and phase composition have
been correlated with the conditions of precipitation.
The oxidation of selected samples of precipitated and commercial
lead sulphide was investigated by thermal analysis and the above
techniques. The phase composition of the oxidation products were
studied under varying conditions of temperature, gas flow rate and
oxygen content of air. For the low temperature oxidation (~500°C)
the thickness of the lead sulphate product layer was estimated and
attempts made to correlate this value with the kinetics of the oxidation.
The stability of lead sulphate at high temperature (~900 °C) has been
investigated. Sintering behaviour of the products in relation to their
incomplete desulphurization was examined.
Oxidation studies on lead sulphide were extended to lead-zinc
ores with respect to the effect of moisture content and bentonite on
sintering. This investigation was carried out on a sinter pallet using
22 kg mixes at ISP Research Department of Imperial Smelting Processes
Limited, Avonmouth.
The possible formation of lead sulphite as an intermediate in the
low temperature oxidation of lead sulphide was investigated by studying
the thermal stability of the sulphide under various gaseous atmospheres.
These studies were extended to zinc sulphite in relation to previous
studies on the oxidation of zinc sulphide .
These researches form a part of a wider study in the oxidation
of sulphides during shipment, storage and processing.
Date of Award | 1976 |
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Original language | English |
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Awarding Institution | |
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OXIDATION OF LEAD SULPHIDE
SLEEMAN, P. J. (Author). 1976
Student thesis: PhD