Pablo Piña scite author profile

This work sought to integrate bioleaching and chemical leaching as a cost-effective process to treat zinc sulphides. The continuous bioleaching of a sphalerite concentrate, assaying 51.4% Zn, 1.9% Pb, 31.8% S and 9.0% Fe with mesophile iron and sulphur-oxidizing bacteria followed by chemical leaching of the bioleaching residue were assessed. In the bioleaching step, the first reactor was used to produce Fe(III) concentrations as high as 20 g/L. This solution was fed to the subsequent bioleaching reactors to oxidize sphalerite. It was possible to achieve 30% zinc extraction for 70 h residence time. In chemical leaching experiments, carried out with the residue of the bioleaching step, the effects Fe total and acidity on zinc extraction were studied. It was noticed that Fe(III) concentrations over 12 g/L did not affect zinc recoveries. Furthermore, the higher the acidity, the larger the zinc recovery, for experiments carried out up to 181 g/L sulphuric acid. The results have demonstrated that it is possible to devise a new process capable of achieving 96% zinc extraction, similarly to the conventional roasting-leaching-electrolysis process.

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The kinetics of zinc silicate leaching in sodium hydroxide

Santos

Piña

Porcaro

et al. 2010

Hydrometallurgy

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Nitrogen budget in Scenedesmus obliquus cultures with artificial wastewater

Nuñez

Voltolina²,

Nieves

et al. 2001

Bioresource Technology

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Pablo Piña

The leaching kinetics of a zinc sulphide concentrate in acid ferric sulphate

Survival, development and growth of the Pacific white shrimp Litopenaeus vannamei protozoea larvae, fed with monoalgal and mixed diets

Bioleaching and chemical leaching as an integrated process in the zinc industry

The kinetics of zinc silicate leaching in sodium hydroxide

Nitrogen budget in Scenedesmus obliquus cultures with artificial wastewater

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