Brandl H 2001 Microbial Leaching Of Metals

Brandl H 2001 Microbial Leaching Of Metals

  • Microbial Leaching of Metals - Biotechnology - Wiley ...

    Summary The prelims comprise: Introduction Terminology Historical Background Principles of Microbial Metal Leaching Microbial Diversity in Bioleaching Environments Case Studies of Bioleaching Appli...

  • Cited by: 200
  • Microbial Leaching of Metals Request PDF

    Bacterial leaching, also called biohydrometallurgy, is a process based on the solubilization of components in a mineral sample by bacteria (Brandl 2001; Garcia 1989;Garcia and Urenha 2001

  • Author: Helmut Brandl
  • brandl h 2001 microbial leaching of metals

    brandl h 2001 microbial leaching of metals related articles; grinding mill machine 4 to 1 8 ton per hour; mineral processing machine 200 tonnes per hour; of 300 tons per hour crusher plan; 100 ton per hour alluvial gold recovery plant; iron ore crusher plant in s outh afric; 150 300 t h stone production line equipments ; vibro screen h crusher; fix crushing plant ton per hour; mining machine ...

  • Microbial Leaching of Metals Request PDF

    Microbial extraction or bioleaching is a technology that uses bacterial microorganisms to extract metals from metal-containing materials (Bosecker, 1997).

  • Author: Helmut Brandl
  • Computer-munching microbes: metal leaching from electronic ...

    Microbiological processes were applied to mobilize metals from electronic waste materials. Bacteria (Thiobacillus thiooxidans, T. ferrooxidans) and fungi (Aspergillus niger, Penicillium simplicissimum) were grown in the presence of electronic scrap. The formation of inorganic and organic acids caused the mobilization of metals.

  • Cited by: 492
  • Computer-munching microbes: metal leaching from electronic ...

    Computer-munching microbes: metal leaching from electronic scrap by bacteria and fungi H. Brandl), R. Bosshard, M. Wegmann Institute of En˝ironmental Sciences, Uni˝ersity of Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland¨ Received 9 September 1999; accepted 27 March 2000 Abstract Microbiological processes were applied to mobilize metals from electronic waste materials ...

  • Computer-munching microbes: metal leaching from electronic ...

    2001-02-01  Microbiological processes were applied to mobilize metals from electronic waste materials. Bacteria (Thiobacillus thiooxidans, T. ferrooxidans) and fungi (Aspergillus niger, Penicillium simplicissimum) were grown in the presence of electronic scrap. The formation of inorganic and organic acids caused the mobilization of metals.

  • Cited by: 492
  • A comparison of microbial leaching and chemical leaching ...

    2015-03-18  The results showed that except for Zn, the microbial leaching achieved higher removal efficiencies than the chemical leaching with As, Cu, Mn, and Fe after 300 h of incubation. It was observed that 95% Mn, 38% Cu, 67% Zn, 41% As, and 47% Fe were removed from the mine tailings by the microbial leaching process.

  • Cited by: 9
  • MINIREVIEW Microbial Leaching of Metals from Solid ...

    MINIREVIEW Microbial Leaching of Metals from Solid Industrial Wastes Debaraj Mishra1 and Young Ha Rhee2* 1 Sungeel Hi-Tech Ltd., Incheon 404-250, Republic of Korea Department of Microbiology and Molecular Biology, Chungnam National University, Daejeon 305-764, Republic of Korea 2 (Received Oct 14, 2013 / Revised Nov 27, 2013 / Accepted Nov 28 ...

  • Brandl, H., Bosshard, R., Wegmann, M., 2001. Computer ...

    Brandl, H., Bosshard, R., Wegmann, M., 2001. Computer-munching microbes: metal leaching from electronic scrap by bacteria and fungi. Hydrometallurgy 59 (2-3), 319-326. has been cited by the following article: Article. Microbial Recovery of Gold Metal From Untreated and Pretreated Electronic Wastes by Wild and Mutated Cyanogenic Bacillus megaterium. Alshehri A.N.Z. 1, 1 Department of

  • Computer-munching microbes: metal leaching from electronic ...

    Computer-munching microbes: metal leaching from electronic scrap by bacteria and fungi H. Brandl), R. Bosshard, M. Wegmann Institute of En˝ironmental Sciences, Uni˝ersity of Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland¨ Received 9 September 1999; accepted 27 March 2000 Abstract Microbiological processes were applied to mobilize metals from electronic waste materials ...

  • A comparison of microbial leaching and chemical leaching ...

    2015-03-18  The aim of this research was to compare the efficiencies of microbial leaching and chemical leaching of As and heavy metals from mine tailings. A mixed culture of Acidithiobacillus thiooxidans and Acidithiobacillus ferrooxidans was used as a microbial lixiviant agent for microbial leaching, while sulfuric acid (H 2 SO 4 ) and hydrogen peroxide (H 2 O 2

  • Metal Leaching of Fly Ash from Municipal Waste ...

    W. Krebs, R. Bachofen, H. Brandl. Growth stimulation of sulfur oxidizing bacteria for optimization of metal leaching efficiency of fly ash from municipal solid waste incineration. Hydrometallurgy 2001, 59 (2-3) , 283-290. DOI: 10.1016/S0304-386X(00)00174-2. H Brandl, R Bosshard, M Wegmann.

  • Bioleaching - Wikipedia

    Bioleaching is the extraction of metals from their ores through the use of living organisms.This is much cleaner than the traditional heap leaching using cyanide. Bioleaching is one of several applications within biohydrometallurgy and several methods are used to recover copper, zinc, lead, arsenic, antimony, nickel, molybdenum, gold, silver, and cobalt

  • Microbial Leaching of Metals Semantic Scholar

    DOI: 10.1002/9783527620937.ch8 Corpus ID: 34058465. Microbial Leaching of Metals @inproceedings{Brandl2001MicrobialLO, title={Microbial Leaching of Metals}, author={Herbert Brandl}, year={2001} }

  • microbial leaching of copper

    • T. A. Fowler and F. K. Crundwell "Leaching of zinc sulfide with Thiobacillus ferrooxidans"• Brandl H. (2001) "Microbial leaching of metals". In: Rehm H. J. (ed.) Biotechnology, Vol. 10. Wiley-VCH, Weinheim, pp. 191–224. Wikipedia Text under CC-BY-SA license ; Biomining Wikipedia. Microbial leaching is especially useful for copper ores because copper sulfate, as formed during the ...

  • Cassava Wastewater and Solid Waste Leachate as Cyanogenic ...

    Brandl H (2001) Microbial leaching of metals. In: Rehm HJ, Reed G (Eds.), Biotechnology, vol. 10. Special processes. Weinheim, Wiley-VCH. pp. 191–224. Brandl H (2001) Heterotrophic leaching. In: Gadd GM (Ed.), Fungi in bioremediation. Cambridge, Cambridge University Press. pp. 383–423. Burgstaller W, Schinner F (1993) Leaching metals with fungi. Journal of Biotechnology 27 (2): 91 –

  • MINIREVIEW Microbial Leaching of Metals from Solid ...

    MINIREVIEW Microbial Leaching of Metals from Solid Industrial Wastes Debaraj Mishra1 and Young Ha Rhee2* 1 Sungeel Hi-Tech Ltd., Incheon 404-250, Republic of Korea Department of Microbiology and Molecular Biology, Chungnam National University, Daejeon 305-764, Republic of Korea 2 (Received Oct 14, 2013 / Revised Nov 27, 2013 / Accepted Nov 28 ...

  • Abstract - AIMS Press - Open Access Journals

    Brandl H, Faramarzi MA (2006) Microbe-metal-interactions for the biotechnological treatment of metal-containing solid waste. China Particuol 4:93–97. 21. Brandl H (2001) Microbial leaching of metals. In: Rehm HJ (ed.) Biotechnology, Vol. 10. Wiley- VCH, Weinheim, 191–224. 22. Pol A, Barends TRM, Dietl A, et al. (2014) Rare earth metals are essential for methanotrophic life in volcanic ...

  • Development of a Laboratory-Scale Leaching Plant for Metal ...

    Bosshard P P, Bachofen R, Brandl H. Metal leaching of fly ash from municipal waste incineration by Aspergillus niger. Environ Sci Technol. 1996; 30:3066–3070 . 7. Brombacher C, Bachofen R, Brandl H. Biohydrometallurgical processing of solids: a patent review. Appl Microbiol Biotechnol. 1997; 48:577–587. 8. Brombacher C, Brandl H. Abstracts of the 53rd Annual Meeting of the Swiss Society ...

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  • microbial leaching of copper

    • T. A. Fowler and F. K. Crundwell "Leaching of zinc sulfide with Thiobacillus ferrooxidans"• Brandl H. (2001) "Microbial leaching of metals". In: Rehm H. J. (ed.) Biotechnology, Vol. 10. Wiley-VCH, Weinheim, pp. 191–224. Wikipedia Text under CC-BY-SA license ; Biomining Wikipedia. Microbial leaching is especially useful for copper ores because copper sulfate, as formed during the ...

  • Microbial Leaching of Metals Semantic Scholar

    DOI: 10.1002/9783527620937.ch8 Corpus ID: 34058465. Microbial Leaching of Metals @inproceedings{Brandl2001MicrobialLO, title={Microbial Leaching of Metals}, author={Herbert Brandl}, year={2001} }

  • Fungal Leaching of Hazardous Heavy Metals from a Spent ...

    Fungal Leaching of Hazardous Heavy Metals from a Spent Hydrotreating Catalyst. Conferences ; Disciplines; Committees; Publications Abstracts Periodicals Archive. Support; My Account; Commenced in January 2007. Frequency: Monthly. Edition: International. Paper Count: 30431. Fungal Leaching of Hazardous Heavy Metals from a Spent Hydrotreating Catalyst. Authors: S. M. Mousavi, R. Mafi

  • Cassava Wastewater and Solid Waste Leachate as Cyanogenic ...

    Brandl H (2001) Microbial leaching of metals. In: Rehm HJ, Reed G (Eds.), Biotechnology, vol. 10. Special processes. Weinheim, Wiley-VCH. pp. 191–224. Brandl H (2001) Heterotrophic leaching. In: Gadd GM (Ed.), Fungi in bioremediation. Cambridge, Cambridge University Press. pp. 383–423. Burgstaller W, Schinner F (1993) Leaching metals with fungi. Journal of Biotechnology 27 (2): 91 –

  • Microbial Leaching of Copper from Waste Electronic Scraps ...

    Microbial leaching was used to mobilize copper from two kinds of waste electronic scraps used as raw materials for printed wire boards. Both of Acidithiobacillus ferrooxidans and Acidithiobacillus thiooxidans used to solubilize copper from the samples. The experimental results demonstrated that the percentages of copper basically increased with decrease of sieve fraction of the samples.

  • Chemical and biological leaching of aluminum from red mud

    Remediation of Metal-Bearing Aqueous Waste Streams via Direct Carbonation. ... خانه; بلاگ; پیگیری سفارش ترجمه; درباره ما; تماس با ما; English. کوپن اشتراک; ورود; ثبت نام × ورود. Log in with Google; مرا به خاطر بسپار فراموشی رمز عبور. ورود. عضو نیستید؟ ثبت نام کنید × بازیا�

  • Leaching Processes Springer for Research Development

    When solid materials are exposed to a liquid, some constituents will dissolve to a greater or lesser extent. The degree of dissolution of individual constituents by the contacting liquid leads to a...

  • Microbial Recovery of Gold Metal From Untreated and ...

    Bacteria which have cyanogenic activity concentrate metals like gold under alkaline conditions, while acidophilic bacteria were used in biorecovery of the metals solid waste 12. The alkaline condition and the pKa of HCN is 9.3 made the gold dissolution process increases the total cyanide ions available for biorecovery. Growth of bacteria under alkaline condition is the major challenge in this ...

  • Biolixiviació - Viquipèdia, l'enciclopèdia lliure

    T. A. Fowler and F. K. Crundwell - 'Leaching of zinc sulfide with Thiobacillus ferrooxidans' BioHeap - Bioleaching process developed by Pacific Ore Ltd Brandl H. (2001) Microbial leaching of metals.

  • Microbial Leaching of Metals Semantic Scholar

    DOI: 10.1002/9783527620937.ch8 Corpus ID: 34058465. Microbial Leaching of Metals @inproceedings{Brandl2001MicrobialLO, title={Microbial Leaching of Metals}, author={Herbert Brandl}, year={2001} }

  • Microbial Leaching of Copper from Waste Electronic Scraps ...

    Microbial leaching was used to mobilize copper from two kinds of waste electronic scraps used as raw materials for printed wire boards. Both of Acidithiobacillus ferrooxidans and Acidithiobacillus thiooxidans used to solubilize copper from the samples. The experimental results demonstrated that the percentages of copper basically increased with decrease of sieve fraction of the samples.

  • Bioleaching of gold, copper and nickel from waste cellular ...

    Brandl H, Bosshard R, Wegmann M (2001) Computer-munching microbes: metal leaching from electronic scrap by bacteria and fungi. Hydrometallurgy 59:319–326. [ Links ] Brandl H, Faramarzi MA (2006) Microbe-metal-interactions for the biotechnological treatment of metal-containing solid waste. China Part 4:93–97. [ Links ]

  • Chemical and biological leaching of aluminum from red mud

    Remediation of Metal-Bearing Aqueous Waste Streams via Direct Carbonation. ... خانه; بلاگ; پیگیری سفارش ترجمه; درباره ما; تماس با ما; English. کوپن اشتراک; ورود; ثبت نام × ورود. Log in with Google; مرا به خاطر بسپار فراموشی رمز عبور. ورود. عضو نیستید؟ ثبت نام کنید × بازیا�

  • Microbial Recovery of Gold Metal From Untreated and ...

    Bacteria which have cyanogenic activity concentrate metals like gold under alkaline conditions, while acidophilic bacteria were used in biorecovery of the metals solid waste 12. The alkaline condition and the pKa of HCN is 9.3 made the gold dissolution process increases the total cyanide ions available for biorecovery. Growth of bacteria under alkaline condition is the major challenge in this ...

  • Chemical and biological leaching of aluminum from red mud ...

    Remediation of Metal-Bearing Aqueous Waste Streams via Direct Carbonation. Energy Fuels 2001, 15 (2) , 256-262. DOI: 10.1021/ef000245x. Philipp P. Bosshard,, Reinhard Bachofen, and, Helmut Brandl. Metal Leaching of Fly Ash from Municipal Waste Incineration by Aspergillus niger.

  • Extraction of metals from electronic waste by bacterial ...

    The paper presents the results of laboratory tests of bacterial leaching of metals from electronic scrap. It describes the mechanisms of this process and the factors influencing the chemical reaction. The paper also presents preliminary results of experimental studies on the copper bioleaching from electronic waste with the participation of Acidithiobacillus ferrooxidans bacteria. Słowa ...

  • Impact of Pulp Density on Extraction of Metals, By ...

    In bioleaching of metals, the pH of the solution is a critical factor in metal extraction because metals dissolve in acids (Karavaiko et al., 1980). The metals are extracted by using microbes which secrets acids (Shaikh and Ade, 2012). These microbes can thrive well even in the extreme conditions like low or high temperature or pH thus known as extremophiles (Hebert, R. A., 1992). Earlier ...

  • 3.0 References - CHE 433: Modern Separations, Leaching

    Spring 2014 CHE 433 Modern Separations Project Regarding Leaching Prepared in Consideration with the Guidelines of Professor Nielsen

  • Biolixiviació - Viquipèdia, l'enciclopèdia lliure

    T. A. Fowler and F. K. Crundwell - 'Leaching of zinc sulfide with Thiobacillus ferrooxidans' BioHeap - Bioleaching process developed by Pacific Ore Ltd Brandl H. (2001) Microbial leaching of metals.