Search Results - "Melamud, V S"

Selection of a community of acidochemolithotrophic microorganisms with a high oxidation rate of pyrrhotite-containing sulphide ore flotation concentrate by Kondrat’eva, T. F, Pivovarova, T. A, Bulaev, A. G, Moshchanetskii, P. V, Tsaplina, I. A, Grigor’eva, N. V, Zhuravleva, A. E, Melamud, V. S, Belyi, A. V

“…A community of acidochemolithotrophic microorganisms with a high oxidation rate of pyrrhotite-containing sulphide ore flotation concentrate was selected. The…”
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Comparison of Leaching of Copper–Nickel Concentrates and Metallurgical Slag with Biogenic Ferric Iron by Fomchenko, N. V., Panyushkina, A. E., Melamud, V. S., Muravyov, M. I.

“…The leaching of nonferrous metals from copper–nickel sulfide concentrates and copper–nickel slags with ferric sulfate solution obtained by microbial oxidation…”
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Bioleaching of Enargite and Tennantite by Moderately Thermophilic Acidophilic Microorganisms by Elkina, Yu. A., Melnikova, E. A., Melamud, V. S., Bulaev, A. G.

“…The goal of the present work was to study the bioleaching of chalcopyrite (CuFeS 2 ), enargite (Cu 3 AsS 4 ), and tennantite (Cu 12 As 4 S 13 ) by pure and…”
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Biooxidation of High-Sulfur Products of Ferric Leaching of a Zinc Concentrate by Muravyov, M. I., Melamud, V. S., Fomchenko, N. V.

“…— We have previously proposed a highly efficient technology for metal recovery from low-grade zinc sulfide concentrate by two-step treatment including ferric…”
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Bioleaching of a Copper-Zinc Concentrate with High Arsenic Content by Elkina, Yu. A., Melamud, V. S., Bulaev, A. G.

“…— The goal of the present work was to study the dependence of the rate of copper and zinc bioleaching from an arsenic-containing copper-zinc concentrate…”
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Influence of Organic Carbon Source on Biooxidation of Sulfide Concentrate by Bulaev, A. G., Artykova, A. V., Kolosov, A. V., Nechaeva, A. V., Beletsky, A. V., Kadnikov, V. V., Melamud, V. S., Mardanov, A. V.

“…— The goal of the present work was to determine the effect of different concentrations of an organic carbon source (molasses) on the biooxidation of…”
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Ferric Leaching of Bulk Sulfidic Concentrates with Biologically Generated Solution by Muravyov, M. I., Panyushkina, A. E., Melamud, V. S., Bulaev, A. G., Fomchenko, N. V.

“…The leaching of nonferrous metals from copper–zinc and copper–nickel sulfidic concentrates with a ferric sulfate solution obtained via microbial oxidation of…”
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Species and strain composition of microbial associations oxidizing different types of gold-bearing concentrates by Pivovarova, T. A, Melamud, V. S, Savari, E. E, Sedel'nikova, G. V, Kondrat'eva, T. F

“…Quantitative abundance of microbial species within an association was found to depend on the energy substrate and the oxidation temperature of sulfide…”
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Bioregeneration of Leaching Solutions during Two-Step Processing of Copper-Zinc Concentrate by Fomchenko, N. V., Muravyov, M. I., Melamud, V. S.

“…A comparative study of the oxidation of ferrous iron ions by various cultures of acidophilic chemolithotrophic microorganisms in solutions obtained after…”
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Leaching of rare earth elements from coal ashes using acidophilic chemolithotrophic microbial communities by Muravyov, M. I., Bulaev, A. G., Melamud, V. S., Kondrat’eva, T. F.

“…A method for leaching rare earth elements from coal ash in the presence of elemental sulfur-oxidizing communities of acidophilic chemolithotrophic…”
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Oxidation of sulfur-containing substrates by an association of acidophilic chemolithotrophic microorganisms by Revenko, A. A, Melamud, V. S, Krasil'nikov, G. S, Pivovarova, T. A, Belyi, A. V, Kondrat'eva, T. F

“…Quantitative and qualitative changes in the content of elements in the solid and liquid phases occurred as the pulp moved through reactors during biooxidation…”
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Strain polymorphism of the plasmid profiles in Sulfobacillus species by Tupikina, O. V, Melamud, V. S, Bogdanova, T. I, Tsaplina, I. A, Pivovarova, T. A, Zhuravleva, A. E, Kondrat'eva, T. F

“…Plasmids were discovered for the first time in strains belonging to different species of the genus Sulfobacillus: S. thermosulfidooxidans, S. sibiricus, S…”
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Oxidation of gold-antimony ores by a thermoacidophilic microbial consortium by Tsaplina, I. A., Sorokin, V. V., Zhuravleva, A. E., Melamud, V. S., Bogdanova, T. I., Kondrat’eva, T. F.

“…Antimony leaching from sulfide ore samples by an experimental consortium of thermoacidophilic microorganisms, including Sulfobacillus, Leptospirillum , and…”
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Selection of a community of acidochemolithotrophic microorganisms with a high oxidation rate of pyrrhotite- containing sulphide ore flotatation concentrate by Kondrat'eva, T F, Pivovarova, T A, Bulaev, A G, Moshchanetskiĭ, P V, Tsaplina, I A, Grigor'eva, N V, Zhuravleva, A E, Melamud, V S, Belyĭ, A V

“…A community of acidochemolithotrophic microorganisms with a high oxidation rate of pyrrhotite-containing sulphide ore flotation concentrate was selected. The…”
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Changes in the species composition of a thermotolerant community of acidophilic chemolithotrophic microorganisms upon switching to the oxidation of a new energy substrate by Bulaev, A G, Pivovarova, T A, Melamud, V S, Bumazhkin, B K, Patutina, E O, Kolganova, T V, Kuznetsov, B B, Kondrat'eva, T F

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Leaching of copper ore of the Udokanskoe deposit at low temperatures by an association of acidophilic chemolithotrophic microorganisms by Kondrat’eva, T. F., Pivovarova, T. A., Krylova, L. N., Melamud, V. S., Adamov, E. V., Karavaiko, G. I.

“…Pure cultures of indigenous microorganisms Acidithiobacillus ferrooxidans strain TFUd, Leptospirillum ferrooxidans strain LUd, and Sulfobacillus thermotolerans…”
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Polymorphism In Sulfobacillus Thermosulfidooxidans Strains That Dominate In The High Temperature Oxidation Process Of Gold-Arsenic Concentrates by Bulaev, A G, Pivovarova, T A, Melamud, V S, Tsaplina, I A, Zhuravleva, A E, Kondrat'eva, T F

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Leaching of copper ore of the Udokanskoe deposit at low temperatures by an association of acidophilic chemolithotrophic microorganisms by Kondrat'eva, T F, Pivovarova, T A, Krylova, L N, Melamud, V S, Adamov, E V, Karavaĭko, G I

“…Pure cultures of indigenous microorganisms Acidithiobacillus ferrooxidans strain TFUd, Leptospirillum ferrooxidans strain LUd, and Sulfobacillus thermotolerans…”
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Species composition of acidophilic chemolithotrophic microbial consortia taking part in oxidation of arsenogold concentrates from ore deposits by Bulaev, A G, Pivovarova, T A, Melamud, V S, Bumazhkin, B K, Patutina, E O, Kolganova, T V, Kuznetsov, B B, Kondrat'eva, T F

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Genotypic and phenotypic polymorphism of environmental strains of the moderately thermophilic bacterium Sulfobacillus sibiricus by Tsaplina, I. A., Bogdanova, T. I., Kondrat’eva, T. F., Melamud, V. S., Lysenko, A. M., Karavaiko, G. I.

“…Five cultures of moderately thermophilic spore-forming acidophilic chemolithotrophic bacteria were isolated from the zones of spontaneous heating of…”
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