Research Article
Year 2009,
Issue: 019, 71 - 82, 15.08.2009
Abstract
Rapid depletion of free-milling and oxide gold ores worldwide has forced
the mining industry to turn to refractory gold deposits. Hence, research
companies have examined novel methods for gold recovery, and advances have been
made toward the extraction of gold from many different types of refractory
ores. GEOCOAT® technology (heap
biooxidation), a proprietary process developed by GeoBiotics, Inc.,
incorporates elements of two successful and commercially proven processes: heap
leaching and biooxidation. The process involves coating of ground gold bearing
sulfide minerals concentrate onto relatively coarse inert rock and then
bio-heap oxidation of this coated material. In this study, initially the use of
biotechnologies in the mining industry was introduced. Detailed information
about heap biooxidation process was presented; experiments carried out at
laboratory scale and at pilot plant scale by using this technology were
summarized; and then commercial plant for heap biooxidation of refractory gold
bearing pyrite concentrate was introduced.
References
- [1] Rawlings, D.E., “Biomining:Theory, Microbes and Industrial Processes”, Springer-Verlag, Berlin, (1997).
- [2]Sand, W., Gehrke, T., Hallmann, R. and Schippers, A., “Appl. Microbial. Biotechnol”, 43:961-966, (1995).
- [3] Rawlings, D.E., “Microbially Assited Dissolution of Minerals and its Use in the Mining Industry”, Pure Appl. Chem., V:76, 4:847-859, (2004).
- [4] Ndlovu, S., “Biohydrometallurgy for Sustainable Development in the African Minerals Industry”, Hydrometallurgy, Article in Press., (2007).
- [5] Brierley, L.C., “Bacterial Oxidation: Master Key to Unlock Refractory Gold Ores?”, Engineering & Mining Journal, May, (1995).
- [6] Rawlings, D.E., Dew, D. and Plessis, C.D., “Biomineralization of Metal Containing ores and Concentrates, Trends in Biotechnology”, V.21, 1:38-44, January, (2003).
- [7] Brierley, L.C. ve Briggs, A.P., “Selection and Sizing of Biooxidation Equipment and Circuits”, Mineral Processing Plant Design, Practice, and Control, Edited by Andrew, L. Mular, Doug, N. Halbe, Derek, J., published by SME, (2002).
- [8] Norris, P.R., “Thermophiles and Bioleaching, Biomining: Theory, Microbes and Industrial Processes”, ed. D.E. Rawlings, Chapter 12. (1997).
- [9] Seifelnassr, A.A.S., and Abouzeid, A.Z.M., “New Trends in Mineral Processing: Exploitation of Bacterial Activities”, Ore Dressing, 4:18-41, (2000).
- [10] Spencer, A.P., “Influence of Bacterial Culture Selection on the Operation of a Plant Treating Refractory Gold Ore”, Int. J. Miner. Processing,. 62:217–229, (2001).
- [11] Brandl, H., “Microbial Leaching of Metals”, Zürich, Switzerland, http://www.infomine.com, (2005).
- [12] Çelik, H., “Refrakter Altın Cevherlerinin/Konsantrelerinin Ön İyileştirilmesinde Biyooksidasyon Yönteminin Kullanımı”, MADENCİLİK, Cilt 44, 3:35-46, Eylül, (2005).
- [13] Deng, T.L., Liao, M.X., Wang, M.H., Chen, Y.W. and Belzile, N., “Investigation of Accelerating Parameters for the Biooxidation of Low Grade Refractory Gold Ores”, Minerals Engineering, 13:1543-1553, (2000).
- [14] Bouffard, S.C. and Dixon, D.G., “Heap Biooxidation of Refractory Gold Ores: Current State of the Art”, Mineral Processing & Extractive Metall. Rev., 25:159-192, (2004).
- [15] Dresher, W.H., “Copper Applications in Mining and Extraction”, http://www.copper.org/innovations/2004/05/
- [16] Brierley, J.A. and Brierley, C.L., “Present and Future Commercial Applications of Biohydrometallurgy”, Hydrometallurgy, 59:233-239, (2001).
- [17] Brierley, J.A, “Response of Microbial Systems to Thermal Stress in Biooxidation Heap Pretreatment of Refractory Gold Ores”, Hydrometallurgy, 71:13-19, (2003).
- [18] McCready, R.G. and Gould, W.D., “Bioleaching of Uranium”, Ehrlich, H.L. and Brierly, C.L. (Eds.), Microbial Mineral Recovery, McGraw-Hill, New York, p.107, (1990).
- [19] Williams, T., Hunter, C. and Arnall, B., “Pacific Ore Technology’s Bacterial Leaching of Chalcopyrite”, http://www.pacificore.com.au/oploads/media/POTCopper_paper.pdf, (2007).
- [20] Brombacher, C., Bachofen, R. and Brandl, H., “Biohydrometallurgical Processing of Solids: a Patent Review”, Appl. Microbiol. Biotechnol, 48:577-587, (1997).
- [21] İnternet (a), Lesson 12: topic. BIOMIMING, http://www.rocw.raifoundation.org /.../MscBioinformatics/enviraomentalbiotechnology/lecture_notes/lecture-12.pdf, (2007).
- [22] Harvey, T., “It’s a bug’s life”, World Mining Equipment, March, (2005).
- [23] Sampson, M.I., Van der Merwe, J.W., Harvey, T.J. and Bath, M.D., “Testing the Ability of a Low Grade Sphalerite Concentrate to Achieve Autothermality During Biooxidation Heap Leaching”, Minerals Engineering, 18:42-437, (2005).
- [24] Petersen, J. and Dixon, D.G., “Thermophilic Heap Leaching of a Chalcopyrite Concentrate”, Minerals Engineering, 15:777-785, (2002).
- [25] Johansson, C., Shrader, V., Suissa, J., Adutwum, K. and Kohr, W., “Use of the GEOCOAT Process for the Recovery of Copper from Chalcopyrite”, Presented at IBS Biomin ’99 in Madrid, Spain, (1999).
- [26] Harvey, T.J., Shield, J.W., Richard, M. and Crowell, P.E., “GEOCOAT Biooxidation Demonstration at Ashanti Goldfields Obuasi Operations”, Ghana, West Africa, Presented at Randol Gold Forum, Denver, Colorado, May, (1999).
- [27] İnternet (b), Geobiotics Technologies, http://www.geobiotics.com, (2008).
- [28] Harvey, T.J., Holder, N. and Stanek, T., “Thermophilic Bioleaching of Chalcopyrite Concentrates with GEOCOAT Process”, Presented at Alta Nickel/Cobalt-Copper Conference, Perth, Australia. (2002a).
- [29] Harvey, T.J., Van der Merwe, J.W. and Afewu, K., “The Application of the GeoBiotics GEOCOAT Biooxidation Technology for the Treatment of Sphalerite at Kumba Resources Rosh Pinah Mine”, Minerals Engineering, 15:823-829, (2002b).
- [30] İnternet (c), Refractory Gold-Bacox, http://www.mintek.co.za, (2004).
Year 2009,
Issue: 019, 71 - 82, 15.08.2009
Abstract
Dünya
çapında öğütmeyle serbestleşebilen ve oksitli altın cevherlerinin hızla
tükenmesi, madencilik endüstrisini refrakter altın yataklarına yöneltmiştir.
Bunun sonucu olarak araştırma şirketleri altın üretimi için yeni yöntemleri incelemeye
başlamışlar ve altının refrakter cevherlerin çok farklı türlerinden kazanımı
yönünde atılımlar yapmışlardır. GeoBiotics Şirketince geliştirilen tescilli bir
proses olan GEOCOAT® teknolojisi (yığın biyooksidasyonu); işletme ölçekte
kendini kanıtlamış ve başarılı iki proses olan yığın liçi ve biyooksidasyon
yöntemlerini birleştirmektedir. Yöntem; altın içeren öğütülmüş sülfürlü mineral
konsantrelerinin göreceli olarak daha iri inert cevher tanelerinin üzerine
kaplanmasını ve daha sonra bu kaplanmış malzemenin biyo-yığın oksidasyonunu
içermektedir. Bu çalışmada ilk olarak madencilik endüstrisinde biyoteknolojinin
kullanımı tanıtılmıştır. Yığın biyooksidasyonu prosesi hakkında detaylı
bilgiler verilmiş, bu teknolojinin kullanımıyla laboratuar ve pilot tesis çapta
yürütülen deneyler özetlenmiş ve daha sonra refrakter altın içeren pirit
konsantresinin yığın biyooksidasyonunun gerçekleştirildiği ticari tesis
tanıtılmıştır.
References
- [1] Rawlings, D.E., “Biomining:Theory, Microbes and Industrial Processes”, Springer-Verlag, Berlin, (1997).
- [2]Sand, W., Gehrke, T., Hallmann, R. and Schippers, A., “Appl. Microbial. Biotechnol”, 43:961-966, (1995).
- [3] Rawlings, D.E., “Microbially Assited Dissolution of Minerals and its Use in the Mining Industry”, Pure Appl. Chem., V:76, 4:847-859, (2004).
- [4] Ndlovu, S., “Biohydrometallurgy for Sustainable Development in the African Minerals Industry”, Hydrometallurgy, Article in Press., (2007).
- [5] Brierley, L.C., “Bacterial Oxidation: Master Key to Unlock Refractory Gold Ores?”, Engineering & Mining Journal, May, (1995).
- [6] Rawlings, D.E., Dew, D. and Plessis, C.D., “Biomineralization of Metal Containing ores and Concentrates, Trends in Biotechnology”, V.21, 1:38-44, January, (2003).
- [7] Brierley, L.C. ve Briggs, A.P., “Selection and Sizing of Biooxidation Equipment and Circuits”, Mineral Processing Plant Design, Practice, and Control, Edited by Andrew, L. Mular, Doug, N. Halbe, Derek, J., published by SME, (2002).
- [8] Norris, P.R., “Thermophiles and Bioleaching, Biomining: Theory, Microbes and Industrial Processes”, ed. D.E. Rawlings, Chapter 12. (1997).
- [9] Seifelnassr, A.A.S., and Abouzeid, A.Z.M., “New Trends in Mineral Processing: Exploitation of Bacterial Activities”, Ore Dressing, 4:18-41, (2000).
- [10] Spencer, A.P., “Influence of Bacterial Culture Selection on the Operation of a Plant Treating Refractory Gold Ore”, Int. J. Miner. Processing,. 62:217–229, (2001).
- [11] Brandl, H., “Microbial Leaching of Metals”, Zürich, Switzerland, http://www.infomine.com, (2005).
- [12] Çelik, H., “Refrakter Altın Cevherlerinin/Konsantrelerinin Ön İyileştirilmesinde Biyooksidasyon Yönteminin Kullanımı”, MADENCİLİK, Cilt 44, 3:35-46, Eylül, (2005).
- [13] Deng, T.L., Liao, M.X., Wang, M.H., Chen, Y.W. and Belzile, N., “Investigation of Accelerating Parameters for the Biooxidation of Low Grade Refractory Gold Ores”, Minerals Engineering, 13:1543-1553, (2000).
- [14] Bouffard, S.C. and Dixon, D.G., “Heap Biooxidation of Refractory Gold Ores: Current State of the Art”, Mineral Processing & Extractive Metall. Rev., 25:159-192, (2004).
- [15] Dresher, W.H., “Copper Applications in Mining and Extraction”, http://www.copper.org/innovations/2004/05/
- [16] Brierley, J.A. and Brierley, C.L., “Present and Future Commercial Applications of Biohydrometallurgy”, Hydrometallurgy, 59:233-239, (2001).
- [17] Brierley, J.A, “Response of Microbial Systems to Thermal Stress in Biooxidation Heap Pretreatment of Refractory Gold Ores”, Hydrometallurgy, 71:13-19, (2003).
- [18] McCready, R.G. and Gould, W.D., “Bioleaching of Uranium”, Ehrlich, H.L. and Brierly, C.L. (Eds.), Microbial Mineral Recovery, McGraw-Hill, New York, p.107, (1990).
- [19] Williams, T., Hunter, C. and Arnall, B., “Pacific Ore Technology’s Bacterial Leaching of Chalcopyrite”, http://www.pacificore.com.au/oploads/media/POTCopper_paper.pdf, (2007).
- [20] Brombacher, C., Bachofen, R. and Brandl, H., “Biohydrometallurgical Processing of Solids: a Patent Review”, Appl. Microbiol. Biotechnol, 48:577-587, (1997).
- [21] İnternet (a), Lesson 12: topic. BIOMIMING, http://www.rocw.raifoundation.org /.../MscBioinformatics/enviraomentalbiotechnology/lecture_notes/lecture-12.pdf, (2007).
- [22] Harvey, T., “It’s a bug’s life”, World Mining Equipment, March, (2005).
- [23] Sampson, M.I., Van der Merwe, J.W., Harvey, T.J. and Bath, M.D., “Testing the Ability of a Low Grade Sphalerite Concentrate to Achieve Autothermality During Biooxidation Heap Leaching”, Minerals Engineering, 18:42-437, (2005).
- [24] Petersen, J. and Dixon, D.G., “Thermophilic Heap Leaching of a Chalcopyrite Concentrate”, Minerals Engineering, 15:777-785, (2002).
- [25] Johansson, C., Shrader, V., Suissa, J., Adutwum, K. and Kohr, W., “Use of the GEOCOAT Process for the Recovery of Copper from Chalcopyrite”, Presented at IBS Biomin ’99 in Madrid, Spain, (1999).
- [26] Harvey, T.J., Shield, J.W., Richard, M. and Crowell, P.E., “GEOCOAT Biooxidation Demonstration at Ashanti Goldfields Obuasi Operations”, Ghana, West Africa, Presented at Randol Gold Forum, Denver, Colorado, May, (1999).
- [27] İnternet (b), Geobiotics Technologies, http://www.geobiotics.com, (2008).
- [28] Harvey, T.J., Holder, N. and Stanek, T., “Thermophilic Bioleaching of Chalcopyrite Concentrates with GEOCOAT Process”, Presented at Alta Nickel/Cobalt-Copper Conference, Perth, Australia. (2002a).
- [29] Harvey, T.J., Van der Merwe, J.W. and Afewu, K., “The Application of the GeoBiotics GEOCOAT Biooxidation Technology for the Treatment of Sphalerite at Kumba Resources Rosh Pinah Mine”, Minerals Engineering, 15:823-829, (2002b).
- [30] İnternet (c), Refractory Gold-Bacox, http://www.mintek.co.za, (2004).
There are 30 citations in total.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Engineering |
| Journal Section | Articles |
| Authors | |
| Publication Date | August 15, 2009 |
| Published in Issue | Year 2009 Issue: 019 |
HAZİRAN 2020'den itibaren Journal of Scientific Reports-A adı altında ingilizce olarak yayın hayatına devam edecektir.