Add to ORKGThis paper reports results of studies on the influence of the crystallographic mineral structure on the process of pyrite and marcasite leaching. Kinetic studies show that the crystallographic structure of minerals like FeS2 type does not influence the efficiency of the process
Experimental results are reported on the biological atmospheric oxidation of FeS{dollar}\\sb2{dollar...
Comparisons on the bioleaching and sterile oxidation of pyrite were performed at controlled redox po...
This study aimed to determine reliable biosignatures of the Acidithiobacillus ferrooxidans/pyrite sy...
A research-grade mineral sample that contained marcasite and pyrite (FeS2) was subjected to the oxid...
The main objective of this study was to investigate the dissolution kinetics of pyrite, pyrrhotite, ...
Pyrite oxidation reaction was carried out using acidophilic microorganisms, Thiobacillus ferrooxidan...
This work aims to study the oxidation of a complex molybdenite mineral which contains pyrite and pyr...
To investigate the influence of orientation of crystal lattice on the bacterial leaching of pyrite c...
In order to understand the influence of crystallographic orientation on the mechanism of pyrite biol...
Shake flask experimentson the leaching of particles of pyrite mineral with Thiobacillusferrooxidans ...
This work aims to study the oxidation of a complex molybdenite mineral which contains pyrite and pyr...
The solution chemistry during the initial (slow increase of dissolved iron and sulfate) and main sta...
The kinetic model of pyrite particle dissolution by the action of bacteria Acidithiobacillus ferroox...
A biooxidation study of sphalerite and pyrite concentrates was evaluated in a shaker experiments usi...
A biooxidation study of sphalerite and pyrite concentrates was evaluated in a shaker experiments usi...
Experimental results are reported on the biological atmospheric oxidation of FeS{dollar}\\sb2{dollar...
Comparisons on the bioleaching and sterile oxidation of pyrite were performed at controlled redox po...
This study aimed to determine reliable biosignatures of the Acidithiobacillus ferrooxidans/pyrite sy...
A research-grade mineral sample that contained marcasite and pyrite (FeS2) was subjected to the oxid...
The main objective of this study was to investigate the dissolution kinetics of pyrite, pyrrhotite, ...
Pyrite oxidation reaction was carried out using acidophilic microorganisms, Thiobacillus ferrooxidan...
This work aims to study the oxidation of a complex molybdenite mineral which contains pyrite and pyr...
To investigate the influence of orientation of crystal lattice on the bacterial leaching of pyrite c...
In order to understand the influence of crystallographic orientation on the mechanism of pyrite biol...
Shake flask experimentson the leaching of particles of pyrite mineral with Thiobacillusferrooxidans ...
This work aims to study the oxidation of a complex molybdenite mineral which contains pyrite and pyr...
The solution chemistry during the initial (slow increase of dissolved iron and sulfate) and main sta...
The kinetic model of pyrite particle dissolution by the action of bacteria Acidithiobacillus ferroox...
A biooxidation study of sphalerite and pyrite concentrates was evaluated in a shaker experiments usi...
A biooxidation study of sphalerite and pyrite concentrates was evaluated in a shaker experiments usi...
Experimental results are reported on the biological atmospheric oxidation of FeS{dollar}\\sb2{dollar...
Comparisons on the bioleaching and sterile oxidation of pyrite were performed at controlled redox po...
This study aimed to determine reliable biosignatures of the Acidithiobacillus ferrooxidans/pyrite sy...