MEASUREMENT OF CONDUCTIVITY OF SULPHIDE PARTICLES DISPERSED IN WATER

A method for measuring the electrical conductivity of particles dispersed in water is tested on common sulphide mineral samples (chalcocite, chalcopyrite, galena, pyrite and sphalerite). Using an automated conductivity settling technique, aqueous solutions of KCl and NaNO 3 were used to change the c...

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Published inCanadian metallurgical quarterly Vol. 42; no. 3; pp. 271 - 276
Main Authors MIRNEZAMI, M., A., M.S. HASHEMI, FINCH, J.A.
Format Journal Article
LanguageEnglish
Published Kingston, ON Taylor & Francis 2003
Metallurgical Society of the Canadian Institute of Mining and Metallurgy
Subjects
Applied sciences
Exact sciences and technology
Metallurgical fundamentals
Metals. Metallurgy
Production of metals
Electric conductivity measurement
Chalcopyrite
Pyrite
Adsorption
Experimental study
Sedimentation
Physicochemical properties
Sulfide ore
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Summary:A method for measuring the electrical conductivity of particles dispersed in water is tested on common sulphide mineral samples (chalcocite, chalcopyrite, galena, pyrite and sphalerite). Using an automated conductivity settling technique, aqueous solutions of KCl and NaNO 3 were used to change the conductivity of the medium. The particle conductivity was estimated at the iso-conductivity point where the solution and the particles have the same conductivity. The adsorption of xanthate significantly reduced the conductivity of chalcopyrite and copper activation increased the conductivity of sphalerite but not lead activation. These observations suggest that the measured conductivity is associated with the solid/water interface. The conductivity values are compared with electrochemical rest potential values from literature. Une méthode de mesure de la conductivité électrique de particules dispersées dans de l'eau est évaluée avec des échantillons de minéral de sulfure commun (chalcosine, pyrite cuivreuse, galène, pyrite et fausse galène.) Utilisant une technique automatisée de sédimentation par conductivité, on a utilisé des solutions aqueuses de KCl et de NaNO 3 pour changer la conductivité du milieu. On a estimé la conductivité de la particule au point d'iso-conductivité où la solution et les particules ont la même conductivité. L'adsorption du xanthate réduisait significativement la conductivité de la pyrite cuivreuse et l'activation du cuivre augmentait la conductivité de la fausse galène, mais pas l'activation du plomb. Ces observations suggèrent que la conductivité mesurée est associée avec l'interface solide/eau. On compare les valeurs de conductivité avec les valeurs de la littérature du potentiel électrochimique au repos.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
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ISSN:0008-4433
1879-1395
DOI:10.1179/cmq.2003.42.3.271