Bioflotation of Sarcheshmeh copper ore using Thiobacillus Ferrooxidans bacteria

Hosseini, Tahereh; Kolahdoozan, M.; Tabatabaei, Yousef; Oliazadeh, M.; Noaparast, Mohammad; Eslami, Ali; Manafi, Zahra; Alfantazi, Akram

doi:10.1016/j.mineng.2004.06.005

Cited by 60 publications

(29 citation statements)

References 3 publications

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“…Acidithiobacillus ferrooxidans have been used as cinnabar depressant in cinnabar and antimonite flotation by Lyalikova and Lyubarina [59], and as galena depressant in galena and sphalerite flotation by Rao et al [60,61]. This bacterium has also been used in removing pyrite from mixtures of sulfide minerals [62][63][64][65]. Acidithiobacillus ferrooxidans have frequently been used as an excellent pyrite depressant in coal flotation [66][67][68][69].…”

Section: Biofrothersmentioning

confidence: 99%

Flotation Frothers: Review of Their Classifications, Properties and Preparation

Khoshdast¹

2011

TOMPJ

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Abstract:The importance of frothers in flotation is widely acknowledged, particularly in terms of their role with respect to bubble size, and the stability and mobility of the froth phase. These factors play a significant role in the kinetic viability of the process, and the overall recovery and the grade that can be achieved from a flotation cell or circuit. About 60 years ago, Wrobel [1] presented a comprehensive review of flotation frothers, their action, properties and structures. However, during recent six decades flotation reagent technology has undergone considerable evolutions and innovations. The aim of the present review is to provide an updated, comprehensive database comprising recent developments in flotation frother technology as well as some historical aspects. Different types of flotation frothers are discussed regarding to their classifications, properties, and preparation methods. New classification schemes have been suggested in parallel with introducing new characterization criteria. New classes of frothers are actually conventional frothers modified by incorporating certain functional "group" or "atoms" into their molecular structure. Like particle surface modifiers, frothers are also influenced by biotechnology, leading to introducing a new class of frothers named as "biofrothers".

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Section: Biofrothersmentioning

confidence: 99%

Flotation Frothers: Review of Their Classifications, Properties and Preparation

Khoshdast¹

2011

TOMPJ

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“…Se pudo observar que la interacción mineral bacteria generó cambios en la superficie de los minerales, como formación de películas con características fisicoquímicas diferentes a las del sulfuro original (Sanhiya et al 2000, Kolahddoozan et al 2004, Hosseini et al 2005, Márquez et al 2009). Esto se pudo constatar para el caso de la mezcla pirita-galena donde los análisis de difracción de rayos X (Figura 3), muestran la formación de nuevas fases como anglesita y jarosita.…”

Section: Discusión Y Conclusionesunclassified

“…Los microorganismos más comúnmente empleados son: Acidithiobacillus ferrooxidans (Kolahdoozan et al 2004;Hosseini et al 2005;Amini et al 2009), Lepstospirillum ferrooxidans (Vilinska & Hanumantha, 2008) y, algunas especies como Staphylococcus carnosus, Bacillus firmus y Bacillus subtilis (Langwaldt & Kalapudas, 2007) y Bacillus polymyxa (Subramanian et al 2003).…”

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“…Todos estos aspectos, en principio, podrían subsanar el problema de la semejanza en comportamiento de los sulfuros, y permitir procesos de separabilidad por flotación más eficientes, sobre la hipótesis de superficies específicas más disímiles (Márquez et al 2009). Es importante anotar que actualmente existen muchas restricciones ambientales y se hace necesario buscar nuevas opciones que reemplacen los compuestos químicos, de reconocida capacidad contaminante, empleados comúnmente en los procesos de flotación (Santhiya et al 2000;Chandraprabha et al 2004;Hosseini et al 2005). El objetivo de este trabajo fue investigar el efecto del pre-acondicionamiento oxidante con Acidithiobacillus ferroxidans, precedido de un proceso de flotación diferencial en celda Hallimond, para mezclas pirita-galena, pirita-calcopirita y pirita-esfalerita, con tamaños de partícula -200 según la serie Tyler de tamices en diferentes períodos.…”

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Flotación diferencial de sulfuros en celda Hallimond, mediada por Acidithiobacillus ferrooxidans

Restrepo¹,

Bedoya

Correa

et al. 2011

Inf. Téc.

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ResumenSe investigó el efecto del pre-acondicionamiento oxidante con Acidithiobacillus ferroxidans, precedido de un proceso de flotación diferencial en celda Hallimond, para mezclas pirita-galena, pirita-calcopirita y pirita-esfalerita, con tamaños de partícula -200 según la serie Tyler de tamices y diferentes períodos. Dicho tratamiento redujo la flotabilidad de la galena y calcopirita e incrementó la flotabilidad de la pirita en las mezclas respectivas. Para el caso de la mezcla pirita-esfalerita se generó flotabilidad de la esfalerita y se disminuyó la flotabilidad de la pirita. Los resultados indican que la interacción mineral-bacteria generó cambios en la superficie de los minerales, las cuales tienen características fisicoquímicas diferentes al sulfuro original, lo cual permite la separación de los sulfuros por flotación.Palabras clave: Biomodulación, flotación, sulfuros. AbstractThis work studied the effect of oxidant preconditioning with Acidithiobacillus ferrooxidans preceded by a differential flotation process in Hallimond cell for pyrite-galena, pyrite-chalcopyrite, and pyrite-sphalerite mixtures with particle sizes at -200, according to the Tyler sieve series and different time periods. Said treatment reduced the buoyancy of galena and chalcopyrite and increased buoyancy of pyrite in the respective mixtures. For the pyrite-sphalerite mixture, sphalerite buoyancy was generated and pyrite buoyancy was decreased. The results indicate that the mineral-bacteria interaction generated changes on the surface of minerals, which have different physical and chemical characteristics from the original sulfide, permitting sulfide separation via flotation.Keywords: Biomodulation, flotation, sulfides IntroducciónLa flotación espumante es un proceso fisicoquímico ampliamente usado en el mundo, se estima que dos billones de toneladas de roca son tratadas por flotación espumante, anualmente, en el mundo (Pearse, 2005). La flotación espumante presenta grandes ventajas sobre otros procesos de separación, debido

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“…Different microbial species have been used in bioflotation. Among others, the following species have been more frequently used: Thiobacillus ferrooxidans and Acidithiobacillus ferrooxidans as pyrite depressants in flotation of sulfide minerals [3][4][5][6][7][8][9], E. coli as a collector of quartz [1], Staphylococcus carnosus and Bacillus firmus as collectors of apatite [10], Paenibacillus polymyxa as surface modifier in iron ore flotation [11], Mycobacterium phlei as collector for hematite [12], Bacillus subtilis as dolimite depressant [13], and Rhodococcus opacus as collector of hematite in hematite-quartz flotation [14].…”

Section: Introductionmentioning

confidence: 99%

Coal flotation using a biosurfactant from Pseudomonas aeruginosa as a frother

Fazaelipoor

Khoshdast

Ranjbar

2010

Korean J. Chem. Eng.

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A biosurfactant-producing bacterial species (Pseudomonas aeruginosa) was grown in a mineral solution with gas oil as the source of carbon and energy. The biosurfactant was recovered from the solution by collecting the foam on the surface and drying. It had critical micelle concentration of 100 ppm. Froth characterization showed that the biosurfactant was superior to methyl isobutyl carbinol (MIBC) in terms of froth height and stability. The biosurfactant was examined in coal flotation as a frother. The combustible matter recovery of 72-79% with 10-15.5% ash content supporting 55-57.5% separation efficiency seemed promising enough to introduce the biosurfactant from Pseudomonas aeruginosa as a new frother.

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Bioflotation of Sarcheshmeh copper ore using Thiobacillus Ferrooxidans bacteria

Cited by 60 publications

References 3 publications

Flotation Frothers: Review of Their Classifications, Properties and Preparation

Flotation Frothers: Review of Their Classifications, Properties and Preparation

Flotación diferencial de sulfuros en celda Hallimond, mediada por Acidithiobacillus ferrooxidans

Coal flotation using a biosurfactant from Pseudomonas aeruginosa as a frother

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