المؤلفون: Soto Bedoya, Ever Poe

المساهمون: Restrepo Baena, Oscar Jaime, Instituto de Minerales Cimex

مصطلحات موضوعية: 540 - Química y ciencias afines::549 - Mineralogía, 620 - Ingeniería y operaciones afines::622 - Minería y operaciones relacionadas, Minerales de oro - Investigaciones, Metalurgia del oro - Investigaciones, Cianuración, Minerales - Lixiviación, Preparación mecánica de minerales, Minerales de cobre - Investigaciones, Refractariedad, Minerales de cobre, Lixiviación, Pretratamientos, Cyanidation, Refractoriness, Copper minerals, Leaching, Pretreatments

وصف الملف: 100 páginas; application/pdf

Relation: LaReferencia; Adams, M. (Ed.). (2016). Gold ore processing: project development and operations (Second). Elseiver.; Asamoah, R., Amankwah, R. K., Addai-Mensah, J., Asamoah, R., & Addai-Mensah, J. (2014). Cyanidation of Refractory Gold Ores: A Review. 204. https://doi.org/10.13140/2.1.4772.6407; Asamoah, R. K., Zanin, M., Gascooke, J., Skinner, W., & Addai-Mensah, J. (2021). Refractory gold ores and concentrates part 1: mineralogical and physico-chemical characteristics. Mineral Processing and Extractive Metallurgy: Transactions of the Institute of Mining and Metallurgy, 130(3), 240–252. https://doi.org/10.1080/25726641.2019.1626659; Bas, A. D., Koc, E., Yazici, Y. E., & Deveci, H. (2015). Treatment of copper-rich gold ore by cyanide leaching, ammonia pretreatment and ammoniacal cyanide leaching. Transactions of Nonferrous Metals Society of China (English Edition), 25(2), 597–607. https://doi.org/10.1016/S1003-6326(15)63642-1; Bustinza, V. (2019). ESTUDIO DEL USO DE NITRATO DE PLOMO PARA OPTIMIZAR LA RECUPERACIÓN DE ORO EN EL PROCESO DE CIANURACIÓN [Tesis de pregrado]. Universidad Nacional de San Agustín de Arequipa.; Canales, R. (2013). Determinación de los Parámetros de Cementación de una Solución Cianurada Aurífera por Medio de Aluminio Metálico. http://132.248.52.100:8080/xmlui/handle/132.248.52.100/3649; Celep, O., Alp, I., Paktunç, D., & Thibault, Y. (2011). Implementation of sodium hydroxide pretreatment for refractory antimonial gold and silver ores. Hydrometallurgy, 108(1–2), 109–114. https://doi.org/10.1016/j.hydromet.2011.03.005; Chaverra, D. (2014). EXTRACCIÓN DE COBRE A PARTIR DE TARJETAS DE CIRCUITO IMPRESO DE RESIDUOS ELECTRÓNICOS [Tesis de posgrado]. Universidad Nacional de Colombia Sede Medellín.; Chen, Y., Qiao, Q., Cao, J., Li, H., & Bian, Z. (2021). Precious metal recovery. In Joule (Vol. 5, Issue 12, pp. 3097–3115). Cell Press. https://doi.org/10.1016/j.joule.2021.11.002; Echeverry, L. (2015). Recuperación de oro y plata mediante lixiviación electrocinética en columna a escala laboratorio [Universidad Nacional de Colombia]. https://repositorio.unal.edu.co/bitstream/handle/unal/55255/71361814.2015.pdf?seque; Gaviria, A. C., Restrepo, O. J., & Bustamante, M. O. (2007). Notas De Clase Programa De La Asignatura : Hidrometalurgia Aplicada Linea De Metales Preciosos. 99.; Habbache, N., Alane, N., Djerad, S., & Tifouti, L. (2009). Leaching of copper oxide with different acid solutions. Chemical Engineering Journal, 152(2–3), 503–508. https://doi.org/10.1016/j.cej.2009.05.020; Huang, Z. S., & Yang, T. Z. (2021). Comparative study on refractory gold concentrate kinetics and mechanisms by pilot scale batch and continuous bio‐oxidation. Minerals, 11(12). https://doi.org/10.3390/min11121343; Iglesias, N., & Carranza, F. (1994). Refractory gold-bearing ores: a review of treatment methods and recent advances in biotechnological techniques. In Hydrometallurgy (Vol. 34).; Li, J., Yang, H., Zhao, R., Tong, L., & Chen, Q. (2023). Mineralogical characteristics and recovery process optimization analysis of a refractory gold ore with gold particles mainly encapsulated in pyrite and Arsenopyrite. Geochemistry, 83(1). https://doi.org/10.1016/j.chemer.2022.125941; Logsdon, M. J., Hagelstein, Karen., Mudder, Terry., & International Council on Metals and the Environment. (1999). The management of cyanide in gold extraction. International Council on Metals and the Environment.; Londoño, I., Mojica, J., Cañón, Y., Mosquera, G., Ruíz, V., Pérez, N., Gutiérrez, H., González, M., Concha, H., Galindo, B., Londoño, S., & Buriticá, J. (2010). Técnicas mineralógicas, químicas y metalúrgicas para la caracterización de menas auríferas.; Marsden, J., & House, C. Iain. (2006). Chemistry of Gold Extraction. SME.; Mhandu, T. J., Park, I., Jeon, S., Hamatsu, S., Elakneswaran, Y., Ito, M., & Hiroyoshi, N. (2023). A Pretreatment of Refractory Gold Ores Containing Sulfide Minerals to Improve Gold Leaching by Ammonium Thiosulfate: A Model Experiment Using Gold Powder and Arsenic-Bearing Sulfide Minerals. Metals, 13(8). https://doi.org/10.3390/met13081357; Montgomery, D. (2004). Diseño y Análisis de Experimentos (Segunda edición).; Msumange, A., Yacizi, E. Y., Celep, O., & Deveci, H. (2020). INVESTIGATION OF THE AMENABILITY OF A COPPER-RICH REFRACTORY GOLD PRE TP CYANIDE LEACHING.; Muir, D. M. (2011). A review of the selective leaching of gold from oxidised copper-gold ores with ammonia-cyanide and new insights for plant control and operation. Minerals Engineering, 24(6), 576–582. https://doi.org/10.1016/j.mineng.2010.08.022; Nathalie, M., Rosalia, J., Elizabeth, P., & Jiménez-Oyola, S. (2021). NITROX METHOD APPLIED ON REFRACTARY ORES. Proceedings of the LACCEI International Multi-Conference for Engineering, Education and Technology, 2021-July. https://doi.org/10.18687/LACCEI2021.1.1.161; Nicol, M. J., Fleming, C. A., & Paul, R. L. (1992). The Chemistry of the Extraction of Gold.; Pacheco, E. (2017). ESTUDIO DE LA OXIDACIÓN DE UN MINERAL SULFURADO AURÍFERO REFRACTARIO EN MEDIO ACUOSO PARA INCREMENTAR LA DISOLUCIÓN DE ORO EN EL PROCESO DE CIANURACIÓN. https://bibdigital.epn.edu.ec/handle/15000/17515; Parkinson, G. A. (1995). THE SEQUENTIAL COPPER ANALYSIS METHOD-GEOLOGICAL, MINERALOGICAL, AND METALLURGICAL IMPLICATIONS.; Restrepo, O. (2018). NOTAS DE CLASE DE LA ASIGNATURA: METALURGIA EXTRACTIVA.; Rojas, N., & Bustamante, O. (2006). COPPER DISSOLUTION FROM CUPRIC FERRITE IN CONVENTIONAL CYANIDATION.; Salinas, E., Rivera, I., Carrillo, F. R., Patiño, F., Hernández, J., & Hernández, L. E. (2004). Mejora del proceso de cianuración de oro y plata, mediante la preoxidación de minerales sulfurosos con ozono. In Rev. Soc. Quím. Méx (Vol. 48).; Santos Madrid, R. (2011). EVALUACION DE CUATRO METODOS PARA RECUPERACION DE ORO A PARTIR DE UN MINERAL REFRACTARIO.; Sceresini, B., & Breuer, P. (2016). Gold-Copper Ores. In Gold Ore Processing: Project Development and Operations (pp. 771–801). Elsevier. https://doi.org/10.1016/B978-0-444-63658-4.00043-8; Schlesinger, M., King, M., Sole, K., & Davenport, W. (2011). Extractive Metallurgy of Copper (fifth edition).; Torres, J. (2016). APLICACIÓN DE LA CIANURACIÓN AMONIACAL PARA MINERALES AURÍFEROS CON ALTO CONTENIDO DE COBRE EN MINERA LAYTARUMA S.A. Universidad Nacional de San Agustín.; Vargas, Y. B. (2021). Estudio de mecanismos de cianuración de oro considerando interacciones fisicoquímicas de interfase.; Yannopoulos, J. C. (1991). The extractive metallurgy of gold. In Hyperfine Interactions (Vol. 111, Issues 1–4). Springer Netherlands. https://doi.org/10.1007/978-1-4684-8425-0; Zapata, C. M., & Monsalve, M. (2021). Determinación de las condiciones óptimas del proceso de cianuración mediante un modelo estadístico, para beneficiar el oro de una planta de Andes-Antioquia, como alternativa al proceso de amalgamación [Universidad de Antioquia]. www.udea.edu.co; ANM. (2023). Oro, material estadístico. https://mineriaencolombia.anm.gov.co/sites/default/files/2023-06/Ficha%20oro%2006%202023.pdf; UPME. (2023). Oro. https://www1.upme.gov.co/simco/Cifras-Sectoriales/Paginas/oro.aspx; https://repositorio.unal.edu.co/handle/unal/86981; Universidad Nacional de Colombia; Repositorio Institucional Universidad Nacional de Colombia; https://repositorio.unal.edu.co/

الاتاحة: https://repositorio.unal.edu.co/handle/unal/86981
https://repositorio.unal.edu.co/

المؤلفون: Argumedo Jiménez, Carlos Enrique

المساهمون: Restrepo Baena, Oscar Jaime, Argumedo-Jimenez, Carlos Enrique 0000-0002-6238-7349

مصطلحات موضوعية: 540 - Química y ciencias afines::549 - Mineralogía, 620 - Ingeniería y operaciones afines::622 - Minería y operaciones relacionadas, Minerales de oro - Investigaciones, Metalurgia del oro - Investigaciones, Cianuración, Minerales de plata - Investigaciones, Metalurgia de la plata - Investigaciones, Minerales - Lixiviación, mineral de oro refractario, telururos, ácido nítrico, lixiviación atmosférica, refractory gold ore, tellurides, nitric acid, atmospheric leaching, cyanidation

وصف الملف: 112 páginas; application/pdf

Relation: LaReferencia; Adams, Mike D. 2005. Advances in Gold Ore Processing. Editado por B. A. wills.; ———. 2016. Gold Ore Processing Project Development and Operations. Editado por Mike D. Adams. 2a ed. Vol. 15. Elsevier.; Ahmad, M, M Solomon, y J L Walshe. 1987. “Mineralogical and Geochemical Studies of the Emperor Gold Telluride Deposit, Fiji”. Economic Geology 82:345–70.; Anderson, Corby G. 2013. “The optimization, design and economics of Industrial NSC oxidative pressure leaching of complex sulfide concentrates”. The International Journal of Engineering and Science (The IJES) 2 (11). www.theijes.com.; Avraamides, J., K. Jones, W. P. Staunton, y B. Sceresini. 1992. “Gold hydrometallurgy research at the mineral processing laboratory of the Department of Mines , Western Australia”. Hydrometallurgy 30:163–75.; Bas, Ahmet Deniz, Edward Ghali, y Yeonuk Choi. 2017. “A Review on electrochemical dissolution and passivation of gold guring cyanidation in presence of sulphides and oxides”. Hydrometallurgy 172 (septiembre):30–44. https://doi.org/10.1016/j.hydromet.2017.06.021.; Beattie, M. J. V, y R. Raudsepp. 1988. “The Arseno process–an update.” En 90th Annual Meeting of Canadian Institute of Mining, Metallurgy and Petroleum. Edmonton.; Beattie, M. J. V., y R. Raudsepp. 1989. “Application of Arseno (Redox) process technology to refractory ores and concentrates”. En Precious Metals, 327–33. Montreal.; Beattie, M. J. V., R. Raudsepp, y A. Ismay. 1989. “Arseno/Redox process for refractory gold ores”. En Processing of Complex Ores, Proceedings of the International Symposium, CIM, 431–39. Halifax.; Brooy, S R La, H G Linge, y G S Walker. 1994. “Review of Gold Extraction from Ores”. Minerals Engineering 7 (10): 1213–41.; Celep, Oktay, Ersin Y Yazici, y Haci Deveci. 2017. “A preliminary study on nitric acid pre-treatment of refractory gold/silver ores”. En IMET 2017 - Proceedings of 25th International Mining Congress of Turkey, 463–68. https://www.researchgate.net/publication/316169344.; Climo, M., H.R. Waltling, y W. Van Bronswijk. 2000. “Biooxidation as Pre-Treatment for a Telluride-Rich Refractory Gold Concentrate”. Minerals Engineering 13 (12): 1219–29.; Cook, Nigel J, Cristiana L Ciobanu, Paul G Spry, Panagiotis Voudouris, y Participants of IGCP-486. 2009. “Understanding Gold-(Silver)-Telluride-(Selenide) Mineral Deposits”. Episodes 32 (4): 249–63.; Cook, Nigel J., Cristina L. Giobanu, Nicu Capraru, Gheorghe Damian, y Petru Cristea. 2005. “Mineral Assemblages From the Vein Salband at Sacarimb, Golden Quadrilateral, Romania: II. Tellurides”. Geochemistry, Mineralogy and Petrology 43:56–63.; Cornwell, W. G., y R. J. Hisshion. 1976. “Leaching of Telluride Concentrates from Gold, Silver, and Tellurium - Emperor Process”. Society of Mining Engineers of AIME - Transactions 260:108–12.; Deschenes, Guy, Allen Pratt, Mike Fulton, y Hai Guo. 2006. “Kinetics and Mechanism of Leaching Synthetic Calaverite in Cyanide Solutions”. Minerals & Metallurgical Processing 23 (3): 133–38.; Dorr, John V. N., y Francis L. Bosqui. 1950. Cyanidation and Concentration of Gold and Silver Ores. 2a ed. McGranw-Hill Book Company, Inc.; Dyer, Laurence G., Eghbalnia Maziar, David G. Dixon, John Rumball, y Edouard Asselin. 2012. “Electrochemical Evaluation of Petzite Leaching”. En Electrometallurgy 2012 - TMS, 227–35. https://doi.org/10.1002/9781118371350.; Dyer, Laurence G., Maziar Sauber, David G. Dixon, y Edouard Asselin. 2017. “On the Refractory Nature of Precious Metal Tellurides”. Hydrometallurgy 169 (169): 488–95. https://doi.org/10.1016/j.hydromet.2017.03.009.; Dziurdzak, Grazyna, James H. Kyle, y Robert C. Dunne. 1989. “The Pressure Aqueous Pre-Oxidation of a Refractory Gold Ore from the Golden Mile, Kalgoorlie, Western Australia”. En World Gold, 315–21.; Ellis, S., y G. Deschênes. 2016. “Treatment of Gold–Telluride Ores”. En Gold Ore Processing, 919–26. Elsevier B.V. https://doi.org/10.1016/B978-0-444-63658-4.00051-7.; Fair, K.J., J.C. Schneider, y G. Van Weert. 1987. “Options in the nitrox process®”. En Proceedings of the International Symposium on Gold Metallurgy, 279–91. Elsevier. https://doi.org/10.1016/b978-0-08-035882-6.50035-2.; Gao, Guolong, Dengxin Li, Yong Zhou, Xianhao Sun, y Wen Sun. 2009. “Kinetics of high-sulphur and high-arsenic refractory gold concentrate oxidation by dilute nitric acid under mild conditions”. Minerals Engineering 22 (2): 111–15. https://doi.org/10.1016/j.mineng.2008.05.001.; González-Ibarra, A. A., F. Nava-Alonso, y A. Uribe-Salas. 2017. “Cyanidation Kinetics of Silver Telluride (Ag2Te)”. Canadian Metallurgical Quarterly 56 (3): 272–80. https://doi.org/10.1080/00084433.2017.1350391.; González-Ibarra, A., F. Nava-Alonso, y A. Uribe-Salas. 2019. “Electrochemical study of silver telluride (Ag2Te): anodic and cathodic potential dependent-reactions in alkaline cyanide solutions”. Hydrometallurgy 183 (enero):230–39. https://doi.org/10.1016/j.hydromet.2018.12.019.; Habashi, Fathi. 1999. “Nitric acid in the hydrometallurgy of sulfides”. En EPD Congress, editado por B Mishra, 357–64. The Minerals, Metals & Materials Society. https://www.researchgate.net/publication/287661305.; Hedley, Norman, y Howard Tabachnick. 1968. Chemistry of Cyanidation. Mineral Dressing Notes. American Cyanamid Company.; Jayasekera, S. 1989. “Study of the Electrochemistry of Gold Telluride in Acid and Alkaline Solutions”. Murdoch University.; Jayasekera, S, I M Ritchie, y J Avraamides. 1991. “Prospects for the Direct Leaching of Gold Tellurides - Recent Developments”. World Gold 91. Cairns Australia, 181–83.; ———. 1933b. “Tellurides - Problem or Alibi?” Engineering and Mining Journal 134 (8): 333–34.; Kelley, Karen D, Samuel B Romberger, David W Beaty, Jeffrey A Pontius, Lawrence W Snee, Holly J Stein, y Tommy B Thompson. 1998. “Geochemical and Geochronological Constraints on the Genesis of Au-Te Deposits at Cripple Creek, Colorado”. Economic Geology 93:981–1012.; Komnitsas, C, y F. D. Pooley. 1989. “Mineralogical characteristics and treatment of refractory gold ores”. Minerals Engineering 2 (4): 449–57.; Korolev, Ivan, Pelin Altinkaya, Mika Haapalainen, Eero Kolehmainen, Kirsi Yliniemi, y Mari Lundström. 2022. “Electro-hydrometallurgical chloride process for selective gold recovery from refractory telluride gold ores: A mini-pilot study”. Chemical Engineering Journal 429 (febrero). https://doi.org/10.1016/j.cej.2021.132283.; Kuzas, Evgeniy, Denis Rogozhnikov, Oleg Dizer, Kirill Karimov, Andrei Shoppert, Alexey Suntsov, y Ivan Zhidkov. 2022. “Kinetic study on arsenopyrite dissolution in nitric acid media by the rotating disk method”. Minerals Engineering 187 (septiembre). https://doi.org/10.1016/j.mineng.2022.107770.; Li, Dengxin. 2009. “Developments in the pretreatment of refractory gold minerals by nitric acid”. En World Gold Conference, 145–50. Johannesburg, South Africa.; Li, D-X, Q-C Li, y G-L Gao. 2007. “Research on leaching gold from cyanided tailings by nitric acid recycling oxidation”. En World Gold Conference, 103–7. Cairns, Australia.; Liu, Junlai, Shengjin Zhao, Nigel J. Cook, Xiangdong Bai, Zhaochong Zhang, Zhidan Zhao, Haibin Zhao, y Jun Lu. 2013. “Bonanza-Grade Accumulations of Gold Tellurides in the Early Cretaceous Sandaowanzi Deposit, Northeast China”. Ore Geology Reviews 54 (octubre):110–26. https://doi.org/10.1016/j.oregeorev.2013.03.003.; Lu, Zhengya, Frank Lawson, y Fellow. 1994. “Metallurgical Properties of Synthetic Sylvanite”. The AusIMM proceedings 296 (2): 89–93.; Marsden, John, y Lain House. 2006. The Chemistry of Gold Extraction. Second.; Montgomery, Douglas C. 2004. Diseño y análisis de experimentos. 2nd ed. Limusa Wiley.; Nathalie, Muñoz, Jaramillo Rosalia, Peña Elizabeth, y Jiménez-Oyola Samantha. 2021. “Procesamiento de menas refractarias aplicando el método Nitrox”. En 19 th LACCEI International Multi-Conference for Engineering, Education, and Technology, 21–23.; Nava-Alonso, F., A. A González-Ibarra, E. Pérez-García, E.N. Castillo-Ventureño, A. Uribe-Salas, y J.C. Fuentes-Aceituno. 2017. “Leaching Alternatives to Recover Gold and Silver from Tellurides”. En Conference of Metallurgists (COM2017) hosting World Gold and Nickel - Cobalt.; Nyavor, Kafui. 1991. “Extraction of gold from a double-refractory concentrate”. Edmonton: University of Alberta.; Padmanaban, Venkatalakshmi, Frank Lawson, y Fellow. 1991. “Metallurgical Properties of Synthetic Calaverite”. The AusIMM proceedings 296 (1): 31–37.; Pashkov, Gennady L., Elena V. Mikhlina, Alexander G. Kholmogorov, y Yuri L. Mikhlin. 2002. “Effect of potential and ferric ions on lead sulfide dissolution in nitric acid”. Hydrometallurgy 63:171–79. www.elsevier.com/locate/hydromet.; Peters, E. 1992. “Hydrometallurgical process innovation”. Hydrometallurgy 29:431–59.; Raudsepp, Rein, Ernest Peters, y Morris Beattie. 1987. Process for recovering gold and silver from refractory ores. 4,647,307, issued el 3 de marzo de 1987.; Rogozhnikov, D. A., S. V. Mamyachenkov, y O. S. Anisimova. 2016. “Nitric acid leaching of copper-zinc sulfide middlings”. Metallurgist 60 (1–2): 229–33. https://doi.org/10.1007/s11015-016-0278-7.; Rogozhnikov, Denis A., Andrei A. Shoppert, Oleg A. Dizer, Kirill A. Karimov, y Rostislav E. Rusalev. 2019. “Leaching kinetics of sulfides from refractory gold concentrates by nitric acid”. Metals 9 (4). https://doi.org/10.3390/met9040465.; Santos-Munguía, P. C., F. Nava-Alonso, V. M. Rodríguez-Chávez, y O. Alonso-González. 2019. “Hidden gold in fire assay of gold telluride ores”. Minerals Engineering 141 (septiembre). https://doi.org/10.1016/j.mineng.2019.105844.; Shackleton, Jill M, Paul G Spry, y Roger Bateman. 2003. “Telluride Mineralogy of the Golden Mile Deposit, Kalgoorlie, Western Australia”. The Canadian Mineralogist 41:1503–24.; Sierra, Edwin. 2016. “Tamaños y asociaciones de los telururos y partículas de oro en la mineralización de mina la ye y mina los mangos”.; Wang, Xianghuai, y Eric K. S. Forssberg. 1990. “The Chemistry of Cyanide-Metal Complexes in Relation to Hydrometallurgical Processes of Precious Metals”. Mineral Processing and Extractive Metallurgy Review 6 (1–4): 81–125. https://doi.org/10.1080/08827509008952658.; Weert, G Van, K J Fair, y J E Schneider. 1986. “Prochem’s NITROX process”. Canadian Institute of Mining, Metallurgy and Petroleum (CIM) 79 (895): 84–85.; Weert, Gus Van, Ken J Fair, y Vicken H Aprahamian. 1988. “Design and operating results of the Nitrox process”. En 2nd International Gold Conference, 286–302. Vancouver, BC, Canada.; Yang, Wei, Gang Wang, Qian Wang, Ping Dong, Huan Cao, y Kai Zhang. 2019. “Comprehensive Recovery Technology for Te, Au, and Ag from a Telluride-Type Refractory Gold Mine”. Minerals 9 (10). https://doi.org/10.3390/min9100597.; Yannopoulos, John C. 1991. The Extractive Metallurgy of Gold. https://doi.org/10.1007/978-1-4684-8425-0.; Zárate-Gutiérrez, R., G. T. Lapidus, y R. D. Morales. 2012. “Aqueous oxidation of galena and pyrite with nitric acid at moderate temperatures”. Hydrometallurgy 115–116 (marzo):57–63. https://doi.org/10.1016/j.hydromet.2011.12.010.; Zhai, Degao, y Jiajun Liu. 2014. “Gold-Telluride-Sulfide Association in the Sandaowanzi Epithermal Au-Ag-Te Deposit, NE China: Implications for Phase Equilibrium and Physicochemical Conditions”. Mineralogy and Petrology 108 (6): 853–71. https://doi.org/10.1007/s00710-014-0334-6.; Zhao, Jing, y Allan Pring. 2019. “Mineral transformations in Gold–(Silver) Tellurides in the Presence of Fluids: Nature and Experiment”. Minerals 9 (3). https://doi.org/10.3390/min9030167.; https://repositorio.unal.edu.co/handle/unal/86227; Universidad Nacional de Colombia; Repositorio Institucional Universidad Nacional de Colombia; https://repositorio.unal.edu.co/

الاتاحة: https://repositorio.unal.edu.co/handle/unal/86227
https://repositorio.unal.edu.co/

المؤلفون: Giraldo Gómez, Iván Alejandro

المصدر: Séneca: repositorio Uniandes
Universidad de los Andes
instacron:Universidad de los Andes

مصطلحات موضوعية: Lixiviación, Biología, Metalurgia del cobre, Metalurgia del oro, Metalurgia del oro - Investigaciones, Metalurgia del cobre - Investigaciones, Lixiviación - Investigaciones, Cianuración

وصف الملف: 10 hojas; application/pdf

URL الوصول: https://explore.openaire.eu/search/publication?articleId=dedup_wf_001::813fe26b9591af3511192d61bdff9288