An Efficiency Evaluation of Iron Concentrates Flotation Using Rhamnolipid Biosurfactant as a Frothing Reagent

Khoshdast, Hamid; Sam, Abbas

doi:10.4491/eer.2012.17.1.009

Cited by 16 publications

(3 citation statements)

References 28 publications

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“…Then, water was added to the system and cell was filled to a set level. Subsequently, a suitable and required dosage of flotation reagents and pyrolysis oil were added to the system and were conditioned for another 5 min (Khoshdast and Sam, 2012). Eventually, the cell was aerated and for 3 min long, the formed forth was conveyed to the concentrate vessel.…”

Section: Flotation Experiments and Calculationsmentioning

confidence: 99%

Effect of an acetonized pyrolysis oil recycled from spent-car tires on coal flotation performance

Hassanzadeh¹

2023

Physicochem. Probl. Miner. Process.

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In this paper, an extended Historical Data (HD) design was applied for evaluating the effect of an acetonized pyrolysis oil (PO) produced by pyrolysis of spent-car tires in coal. Experimental and statistical analyses were applied for examining the influence of some operating variables such as concentration of diesel oil (0, 10, and 20 L/t), pine oil (0.55, 0.1, and 1 L/t), and the pyrolysis oil (0, 10, and 20 L/t) as well as solid content of pulp (5, 10, and 15% (w/w)) on the yield and ash content of final concentrate. Fourier Transform Infrared Spectroscopy (FTIR) measurements showed that PO contained hydroxyl, aldehyde, aliphatic, and aromatic compounds. Based on the results of Analysis of Variance (ANOVA), the main effect of all variables, except concentration of pine oil, on the flotation responses were found significant. Batch flotation experimental results indicated that using pyrolysis oil resulted in a 2% increase in ash content and a 35% decrease of the yield, through a nonlinear trend. The curved behavior of flotation measures was due to the possible competitive adsorption between PO and diesel oil and nonselective interaction between pyrolysis oil and other reagents. The negative effect of PO on coal flotation efficiency was also ascribed to the interaction between hydrophilic groups in PO structure and the oxide nature of non-combustible materials of coal particles.

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Section: Flotation Experiments and Calculationsmentioning

confidence: 99%

Effect of an acetonized pyrolysis oil recycled from spent-car tires on coal flotation performance

Hassanzadeh¹

2023

Physicochem. Probl. Miner. Process.

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“…Bacillus polymyxa was used in the flotation of sulfide minerals (Sharma et al., 2001). Amongst the biomolecules of microbial origin, bio‐surfactant molecules are extensively studied for the mineral flotation process (Didyk & Sadowski, 2012; Khoshdast & Sam, 2012). Adsorption of microbial cell and/or bio‐surfactant molecules to a mineral surface alters its surface properties and facilitates the flotation process.…”

Section: Introductionmentioning

confidence: 99%

“…The stricter environmental regulations with rising concerns for recycling of mineral wastes are encouraging the application of microbial green technology in mineral processing industries. With the recent developments, microbial flotation processes have been developed by using microbes and microbial metabolites (proteins, surfactants and extracellular polymeric substances [EPS]) as alternative green reagents for the mineral flotation process (Behera & Mulaba‐Bafubiandi, 2017; Didyk & Sadowski, 2012; Khoshdast & Sam, 2012; Singh et al., 2007). Application of microbial metabolites such as bio‐surfactants, exopolysaccharides, proteins and nucleic acids as mineral flotation reagents are recently reviewed by Behera and Mulaba‐Bafubiandi (2017).…”

Section: Introductionmentioning

confidence: 99%

Valorization of copper smelter slag through the recovery of metal values by a synergistic bioprocess system of bio‐flotation and bio‐leaching

Behera

Panda

Mulaba‐Bafubiandi

2022

Environmental Quality Mgmt

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Slag sample generated as solid waste from a copper plant in Southern Africa contains strategically important base metals like copper, nickel and cobalt. X-ray diffraction and X-ray fluorescence analysis confirmed the presence of fayalite (Fe 2 SiO 4 ), silica (SiO 2 ) and alumina (Al 2 O 3 ) as the major mineral phases in the slag sample. The presence of alumina and silicate minerals in copper slag are the major obstacles in the recovery of base metals in mineral processing industries. The copper slag may be hazardous if abandoned to the environment but it may be a valuable resource if the metal values can be recovered. Hence, the present study focused on the application of a bio-surfactant extracted from Lactobacillus fermentum bacterium as a bio-collector in the flotation of the slag sample to reduce its silica and alumina content. Subsequently, the slag sample was subjected to bio-leaching by Acidithiobacillus ferrooxidans bacterium for recovery of the metal values. Flotation batch experiments were conducted in 1 L scale Denver flotation cell and during the process, about 37.90% of silica and 22.82% alumina were removed from the slag sample. The findings from this study further revealed the effectiveness of the bio-surfactant-assisted flotation process on the bio-leaching of base metals from the slag sample. Flotation of silica and alumina from the slag improved bioleaching performance and recovered about 74.0% of copper, 60.0% of nickel and 33.4% cobalt in the bio-leaching process conducted at laboratory scale.

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Role of Biosurfactants in Heavy Metal Removal and Mineral Flotation

Mahapatra,

Pradhan,

Preetam

et al. 2024

Advances in Science, Technology &Amp; Innovation

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An Efficiency Evaluation of Iron Concentrates Flotation Using Rhamnolipid Biosurfactant as a Frothing Reagent

Cited by 16 publications

References 28 publications

Effect of an acetonized pyrolysis oil recycled from spent-car tires on coal flotation performance

Effect of an acetonized pyrolysis oil recycled from spent-car tires on coal flotation performance

Valorization of copper smelter slag through the recovery of metal values by a synergistic bioprocess system of bio‐flotation and bio‐leaching

Role of Biosurfactants in Heavy Metal Removal and Mineral Flotation

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