Kinetics of As, Sb, Bi and Pb volatilization from industrial copper matte during Ar+O2 bubbling

Sohn, Ho‐Sang; Fukunaka, Yasuhiro; Oishi, Takao; Asaki, Zenjiro; Sohn, H. Y.

doi:10.1007/s11663-004-0006-8

Cited by 30 publications

(25 citation statements)

References 24 publications

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“…The same negligible influence of the temperature was reported by Alyaser and Brimacombe starting from experiments in a top blowing reactor [3]. A constant slope (x S /t) was found by Ajersch and Toguri [2], Asaki et al [5], and Sohn et al [6], during the desulfurization of mattes or copper sulphide, in the same trend that our results show up to very high conversions. …”

Section: 27supporting

confidence: 92%

“…Results concerning the desulfurization of copper sulfide at laboratory scale have been previously reported, with different conclusions. This is not surprising at all, given the change in hydrodynamic conditions resulting from the devices where experiments were carried out: capillary tubes [2], top lancing [3,4], bubbling gas through a submerged nozzle [5,6], or thermobalance [7]. In general, the data were explained by accepting the control of the gas-side resistance, which has been considered consistent with the high oxygen utilization efficiency of the copper converter.…”

Section: Introductionmentioning

confidence: 98%

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A Kinetic Comparison between Laboratory and Industrial Scales in the Copper Blowing Process

Roselló

Martínez²,

Carrillo

2009

Journal of Metallurgy

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An experimental investigation into the oxidation kinetics of molten sulfide has been conducted at laboratory scale to provide information concerning the influence of the gas feed (flow and oxygen pressure) and melt temperature on the desulfurization rate. Data showed that the reaction rate was strongly dependent on the gas flow rate and significantly from oxygen pressure, whereas the influence of temperature was negligible. The variation of the sulfur conversion with the operation time was similar to that found in industrial trials when "white metal" was blown to blister copper in a Peirce-Smith converter. A unique equation for both scales could be established. This correlation made it possible to calculate the operation time in the converter at different gas flow rates and oxygen enrichments.

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Section: 27supporting

confidence: 92%

Section: Introductionmentioning

confidence: 98%

A Kinetic Comparison between Laboratory and Industrial Scales in the Copper Blowing Process

Roselló

Martínez²,

Carrillo

2009

Journal of Metallurgy

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“…The usual method to estimate k L [36] has been applied to the penetration model. Because both u G and d b are constant, the coefficients calculated by this theory do not depend on conversion.…”

Section: Discussionmentioning

confidence: 99%

Desulfurization Rate during the Copper Blow in a Peirce–Smith Converter

Roselló

Martínez

Barrios

et al. 2008

Metall Mater Trans B

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The desulfurization rate in a Peirce-Smith converter (which works as a well-mixed reactor) was obtained during the copper blow. Conversion data of the copper sulfide as a function of the operation time were correlated distinguishing between two kinetic steps; in both cases, the conversion was proportional to time. The variation of the matte temperature was not influential, so the chemical resistance in the bulk of the melt can be considered negligible. The variation in the global volumetric coefficient deduced from the experimental data was justified by a model having two resistances to mass transfer, the gas-side resistance being constant and the liquidside resistance increasing when the sulfide concentration decreased.

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“…Validation of the Larouche [101] investigated the removal of As through volatilization in the copper smelting processes based on the industrial operation data from personal visit to the smelters and also those reported in literatures. As shown in -oxygen enrichment [101] Sohn et al [102] investigated the kinetics of As volatilization by blowing varied oxygen and argon gas mixture into industrial copper matte at 1250 and 1400 °C in a gas tight vertical furnace tube, of which the results are shown in Figure 2.36. In can be seen that the As content in the matte phase substantially decreases with blowing time.…”

Section: Fractional Distribution Behaviours Of As and Zn During Coppementioning

confidence: 99%

“…A higher blowing temperature somewhat benefit the As volatilization, while the impact by input oxygen partial pressure appears to be rather small. [102] Acuna and Sherrington [91] investigated the As fractional distribution behaviour during smelting in Teniente Converter by applying a thermodynamical model similar to that reported by other researchers [96,103,104] . Using the developed model, they evaluated the effect of operating parameters on the As fractional distribution behaviour.…”

Section: Fractional Distribution Behaviours Of As and Zn During Coppementioning

confidence: 99%

Phase equilibria studies of zinc-containing copper smelting slags

Liu¹

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The smooth operation and productivity of the copper smelters are highly dependent on the comprehension of slag chemistry under the smelting conditions. Phase equilibria of slag principally control the melting temperatures of the slags and proportions of solids at fixed operating temperatures. Due to the decrease of copper ore grade as well as the use of complex feeds, appreciable amount of ZnO is present in the copper smelting slags. The aim of the present study is to investigate the liquid temperature and phase relations of the zinccontaining copper smelting slag systems.Due to the fast vaporization of zinc under reducing conditions, experimental techniques have been developed to enable the phase equilibrium studies of zinc-containing system at copper smelting conditions to be carried out. The experimental procedures in present studies involve master slags preparation, high temperature equilibration, quenching and electron probe X-ray microanalysis (EPMA). The methodology applied in the present study allows the phase assemblages and compositions of the phases existing in the quenched samples to be spontaneously analysed by EPMA.

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Kinetics of As, Sb, Bi and Pb volatilization from industrial copper matte during Ar+O2 bubbling

Cited by 30 publications

References 24 publications

A Kinetic Comparison between Laboratory and Industrial Scales in the Copper Blowing Process

A Kinetic Comparison between Laboratory and Industrial Scales in the Copper Blowing Process

Desulfurization Rate during the Copper Blow in a Peirce–Smith Converter

Phase equilibria studies of zinc-containing copper smelting slags

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