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PRESSURE OXIDATION OF A COPPER-RICH PYRITIC GOLD CONCENTRATE

Year 2021, , 197 - 207, 21.12.2021
https://doi.org/10.30797/madencilik.932319

Abstract

In this study, the pressure oxidation of a refractory copper-rich (0.3% Cu) pyritic gold concentrate (62 g/t Au, 110 g/t Ag, %19,3 pyritic S2-) prior to cyanide leaching was investigated. The effect of parameters i.e., temperature (180-220 °C), oxygen pressure (pO2=5-10 bar), retention time (0.5-2 h) and acid concentration (20-50 g/L H2SO4) was examined on the removal of copper, pyritic sulphur oxidation and extraction of gold in the subsequent cyanide leaching. The increased levels of the parameters improved the gold extraction. The highest gold extraction (97.4%) in cyanide leaching was achieved by the pre-treatment of the concentrate i.e., acid washing (50 g/L H2SO4) followed by pressure oxidation under the conditions of 50 g/L H2SO4, 220 °C, 10 bar and 1 h. The findings demonstrated that high gold recoveries in cyanide leaching can be achieved after pressure oxidation of the concentrate.

References

  • Afenya, P.M., 1991. Treatment of Carbonaceous Refractory Gold Ores, Minerals Engineering, 4, 1043-1055. doi:10.1016/0892-6875(91)90082-7.
  • Ahlatcı, F., Yazıcı, E.Y., Celep, O., Deveci, H., 2018. Thiosulphate Leaching of Gold/Silver from a Copper-Bearing Pyritic Gold Concentrate, XXIX. International Mineral Processing Congress (IMPC), Paper no: 185, September, Moscow, 17-21.
  • Ahlatci, F., Yazıcı, E.Y., Celep, O., Deveci, H., 2017. Tiyosülfat ile Altın ve Gümüş Liçinin Temelleri – Bölüm I., Bilimsel Madencilik, 56, 117-130.
  • Akçıl, A., Çiftçi., 2009. Refrakter Altın Cevherlerine Uygulanan Ön İşlemler. Madencilik, 48, 1, 17-30.
  • Babcan, J., 1971. Synthesis of jarosite-KFe3(SO4)2(OH)6. Geol. Zb., 22, 299-304.
  • Bas, A. D., Koç, E., Yazici, E. Y., Deveci, H., 2015. Treatment of copper-rich gold ore by cyanide leaching, ammonia pretreatment, and ammoniacal cyanide leaching. Trans Nonferrous Met. Soc. China, 25 (2), 597-607.
  • Bas, A. D., Yazici, E. Y., Deveci, H., 2012. Treatment of copper rich gold ores by ammonia assisted cyanide leaching. Proceedings of the XXVI International Mineral Processing Congress (IMPC), New Delhi, India, 356−365.
  • Berezowsky, R.M.G.S., Weir, D.R., 1984. Pressure Oxidation Pretreatment of Refractory Gold. Mining, Metall. Explor. 1, 1–4. doi:10.1007/BF03402544
  • Berezowsky, R.M.G.S., Weir, D. R. 1989. Refractory Gold: The Role Of Pressure Oxidation, Society for Mining, Metallurgy & Exploration, 29650,SME.
  • Bogorodsky, A., Emelianov, Y., Balikov, S., Kopylova, N., 2010. Pressure Oxidation Of Sulfide Gold-Bearing Concentrates With Double Refractorıness, XXV. International Mineral Processing Congress (IMPC 2010), Brisbane, QLD, Australia.
  • Cardenas, R., Miranda, H., Krutzelmann, H., 2018. Technical Report on the Pueblo Viejo Mine, Sanchez Ramirez Province, Dominican Republic, NI 43-101.
  • Celep, O., Alp, İ., 2008. Karıştırmalı Değirmenler ile İnce Öğütmenin Refrakter Altın Cevherlerine Uygulanabilirliğinin İncelenmesi. Madencilik, 47(3), 15-26.
  • Celep, O., Bas, A.D., Yazici, E.Y., Alp, I., Deveci, H., 2015. Improvement of silver extraction by ultrafine grinding prior to cyanide leaching of the plant tailings of a refractory silver ore. Miner. Process. Extr. Metall. Rev., 36. doi:10.1080/08827508.2014.928621.
  • Celep, O., Yazıcı, E.Y., Bölük, D., Deveci, H., Alp, İ., 2010. Evaluation of Preg-robbing Potential of Refractory Gold Ores, in: XII. International Mineral Processing Symposium (IMPS). 6-8 October, Kapadokya, 673–679.
  • Chan, T., Collins, M., Dennett, J., Stiksma, J., Ji, J., Kalanchey, R., Berezowsky, R., 2015. Pilot plant pressure oxidation of refractory gold-silver concentrate from Eldorado Gold Corporation’s Certej Project in Romania. Can. Metall. Q. 54, 252–260. doi:10.1179/1879139515Y.0000000018
  • Dutrizac, J.E., Dinardo, O., 1983. The co-precipitation of copper and zinc with lead jarosite. Hydrometallurgy 11, 61–78. doi:10.1016/0304-386X(83)90016-6
  • Estay, H., 2018. Designing the SART process – A review. Hydrometallurgy, 176, 147–165. https://doi.org/10.1016/j.hydromet.2018.01.011
  • Fleming, C.A., 2010. Basic iron sulfate - a potential killer in the processing of refractory gold concentrates by pressure oxidation. Mining, Metall. Explor. 27, 81–88. doi:10.1007/BF03402383
  • Fleming, C.A., 2011. Dealing with cyanide-soluble copper in the gold mining industry. Fray International Symposium on Metals and Materials Processing in a Clean Environment, 27 Kasım-1 Aralık, Mexico, 173-190.
  • Ford, K.J.R., Fleming, C.A., Henderson, R.D., 2008. Application of the SART process to heap leaching of gold-copper ores at Maricunga, Chile, 40th Annual Meeting of the Canadian Mineral Processors, 22-24 Ocak, Kanada.
  • Gudyanga, F.P., Mahlangu, T., Roman, R.J., Mungoshi, J., Mbeve, K., 1999. An acidic pressure oxidation pre-treatment of refractory gold concentrates from the KweKwe roasting plant, Zimbabwe. Miner. Eng., 12, 863–875. doi:10.1016/S0892-6875(99)00074-6
  • Guzman, I., Thorpe, S.J., Papangelakis, V.G., 2018. Redox potential measurement during pressure oxidation (POX) of a refractory gold ore. Canadian Metallurgical Quarterly, 57, 382–389. doi:10.1080/00084433.2017.1386363
  • Habashi, F., 1999. A Textbook Of Hydrometallurgy, Metalurgie Extractive Quebec Puplications, Kanada,739 syf.
  • Hadi, A., Karimi, P., Amini, A., Akcil, A., 2015. Direct Cyanidation And Roasting Combination of a Semi-Refractory Massive Sulfide Ore, Minerals And Metallurgical Processing. 32. 161-169. doi:10.1007/BF03402284.
  • HAQUE, K.E., 1987. Gold Leaching from Refractory Ores—Literature Survey. Miner. Process. Extr. Metall. Rev., 2, 235–253. doi:10.1080/08827508708952607 HSC-Chemistry, 2011. Chemical Reaction and Equilibrium Software, Outotec Research Oy, v. 7.01
  • Javed, T., 2017. Iron precipitation and associated metal loss from simulated process solutions. Doktora tezi, The University of British Columbia, Kanada, 220 syf.
  • La Brooy, S., Linge, H.G., Walker, G.S., 1994. Review of Gold Extraction from Ores. Miner. Eng. 7, 1213-1241. doi:10.1016/0892-6875(94)90114-7.
  • Logsdon, M.J., Hagelstein, K., Mudder, T.I. 1999. The Management of Cyanide in Gold Extraction, International Council on Metals and the Enviroment, Ottowa, Ontario, Canada.
  • Long, H. 2000. Fundamental Study of the Acidic Pressure Oxidation of Orpiment and Pyrite at High Temperature, Doktora Tezi, British Columbia Üniversitesi, Kanada.
  • Marsden, J.O., House, C.L., 2006. The Chemistry Of Gold Extraction, SME, Colorado, 651 s.
  • Msumange, D.A., Yazıcı, E.Y., Celep, O., Deveci, Haci. 2020. Investıgatıon Of The Amenability Of A Copper-Rich Refractory Gold Ore To Cyanide Leaching. Bilimsel Madencilik Dergisi, 225-234. doi:10.30797/Madencilik.843761.
  • Muir, D.M., 2011. A review of the selective leaching of gold from oxidized copper-gold ores with ammonia-cyanide and new insights for plant control and operation. Miner. Eng. 24, 576-582.
  • Muse, S. M., 2019. Refrakter Altın Cevherlerinin Basınç Oksidasyonu, Yüksek Lisans Tezi, Karadeniz Teknik Üniversitesi, Fen Bilimleri Enstitüsü, Trabzon, 119 s.
  • Nan, X., Cai, X. ve Kong, J., 2013. Pretreatment Process on Refractory Gold Ores with As, ISIJ International. 54. 543-547. doi:10.2355/isijinternational.54.543.
  • Nyavor, K. ve Egiebor, N.O., 1992. Application Of Pressure Oxidation Pretreatment to a Double-Refractory Gold Concentrate, Canadian Institute of Mining, Metallurgy and Petroleum, 223-288.
  • Parkinson, G., Ibrado, A., Dunn, G. Mora, N., Teo, Y.Y., 2014. Pressure Oxidation of Refractory Gold Ores: The Metates Gold Project Experience, in: ALTA 2014 Gold-PM Proceedings. pp. 1–23.
  • Rusanen L., Aromaa J. ve Forsen, O., 2013. Pressure Oxidation Of Pyrite-Arsenopyrite Refractory Gold Concentrate, Physicochemical Problems of Mineral Processing, 49(1), 101-109. doi:10.5277/ppmp130110
  • Rusanen, L., Aromaa, J., Forsen, O., 2013. Pressure oxidation of pyrite-arsenopyrite refractory gold concentrate. Physicochem. Probl. Miner. Process., 49, 101–109.
  • Sayın, Z.E., 2010. Altın Konsantresinden Doğrudan Liç ile Altın Eldesi, Doktora Tezi, Dokuz Eylül Üniversitesi, Fen Bilimleri Enstitüsü, İzmir, 175 syf.
  • Sceresini, B., Breuer, P., 2016. Gold-copper ores. Gold Ore Processing, 2nd Edition, Chapter 43, Editor: Adams, M. D., Elsevier.
  • Sceresini, B., Breuer, P., 2016. Gold-Copper Ores, Adams, M.D. (Ed.), Gold Ore Processing. Elsevier Science, 771–801.
  • Strauss, J., 2015. Low Grade Refractory Gold Ore - Is POX the Solution ?, in: ALTA 2015 Gold-Precious Metals Conference. pp. 188–209.
  • Strauss, J.A., Yahorava, V., Gomez, M.A., 2017. Pressure Oxidation in Gold Circuits: Basic Ferric Arsenate Sulphate and Basic Ferric Sulphate Behaviour in Downstream Processing, COM 2017, The Conference of Metallurgists. Canadian Institute of Mining, Metallurgy and Petroleum, 11 s.
  • Thomas, K.G., 2005. Pressure Oxidation Overview. Developments in Mineral Processing, Editor: Adams, M. D., Chapter 15, Advances in Gold Ore Processing, 346-369.
  • Thomas, K.G., Pearson, M.S., 2016. Pressure Oxidation Overview, in: Adams, M.D. (Ed.), Gold Ore Processing. Elsevier, London, 341–358.
  • Thompson, P., Diaz, M., Plenge, G., 1994. Pressure Oxidation of Silver-Bearing Sulfide Flotation Concentrates. Mining Engineering, 1195-1200.
  • Van Weert, G., Tuinman, I.L. 1993. Procs. of SME Annual Meeting, Reno, Nevada, preprint number 93-59.
  • Yazici, E.Y., Ahlatci, F., Koc, E., Celep, O., Deveci, H., 2015. Pre-treatment of a Copper-rich Gold Ore for Elimination of Copper Interference. 8th European Metallurgical Conference (EMC), Dusseldorf, Vol. 2, 601-613.
  • Yazici, E.Y., Bas, A.D., Deveci, H., 2014. Jarosite Precipitation of Iron from Leach Solutions of Waste Printed Circuit Boards (WPCBs), in: Proceedings of the XIV. International Mineral Processing Symposium And Exhibition (IMPS), 15-17 Oct. Kuşadası, Turkey, 483–488.

BAKIR İÇERİĞİ YÜKSEK PİRİTİK BİR ALTIN KONSANTRESİNİN BASINÇ OKSİDASYONU

Year 2021, , 197 - 207, 21.12.2021
https://doi.org/10.30797/madencilik.932319

Abstract

Bu çalışmada, refrakter özellikte bakır içeriği yüksek (%0,3 Cu) bir piritik altın konsantresinin (62 g/t Au, 110 g/t Ag, %19,3 piritik S2-) siyanür liçi öncesi basınç oksidasyonu araştırılmıştır. Sıcaklık (180-220 °C), oksijen basıncı (pO2=5-10 bar), süre (0,5-2 saat) ve asit konsantrasyonu (20-50 g/L H2SO4) parametrelerinin bakırın uzaklaştırılması, piritin oksidasyonu ve takip eden siyanür liçinde altın kazanımına etkileri incelenmiştir. Bu parametrelerin seviyeleri arttıkça altın kazanımları yükselmiştir. Siyanür liçinde en yüksek altın kazanımına (%97,4) ön asit yıkama (50 g/L H2SO4) sonrası 50 g/L H2SO4, 220 °C, 10 bar ve 1 saat koşullarında gerçekleştirilen basınç oksidasyonu işlemi ile ulaşılmıştır. Elde edilen sonuçlar, refrakter altın konsantresinin basınç oksidasyonu sonrasında siyanür liçinde yüksek altın kazanımlarına ulaşılabileceğini göstermiştir.

References

  • Afenya, P.M., 1991. Treatment of Carbonaceous Refractory Gold Ores, Minerals Engineering, 4, 1043-1055. doi:10.1016/0892-6875(91)90082-7.
  • Ahlatcı, F., Yazıcı, E.Y., Celep, O., Deveci, H., 2018. Thiosulphate Leaching of Gold/Silver from a Copper-Bearing Pyritic Gold Concentrate, XXIX. International Mineral Processing Congress (IMPC), Paper no: 185, September, Moscow, 17-21.
  • Ahlatci, F., Yazıcı, E.Y., Celep, O., Deveci, H., 2017. Tiyosülfat ile Altın ve Gümüş Liçinin Temelleri – Bölüm I., Bilimsel Madencilik, 56, 117-130.
  • Akçıl, A., Çiftçi., 2009. Refrakter Altın Cevherlerine Uygulanan Ön İşlemler. Madencilik, 48, 1, 17-30.
  • Babcan, J., 1971. Synthesis of jarosite-KFe3(SO4)2(OH)6. Geol. Zb., 22, 299-304.
  • Bas, A. D., Koç, E., Yazici, E. Y., Deveci, H., 2015. Treatment of copper-rich gold ore by cyanide leaching, ammonia pretreatment, and ammoniacal cyanide leaching. Trans Nonferrous Met. Soc. China, 25 (2), 597-607.
  • Bas, A. D., Yazici, E. Y., Deveci, H., 2012. Treatment of copper rich gold ores by ammonia assisted cyanide leaching. Proceedings of the XXVI International Mineral Processing Congress (IMPC), New Delhi, India, 356−365.
  • Berezowsky, R.M.G.S., Weir, D.R., 1984. Pressure Oxidation Pretreatment of Refractory Gold. Mining, Metall. Explor. 1, 1–4. doi:10.1007/BF03402544
  • Berezowsky, R.M.G.S., Weir, D. R. 1989. Refractory Gold: The Role Of Pressure Oxidation, Society for Mining, Metallurgy & Exploration, 29650,SME.
  • Bogorodsky, A., Emelianov, Y., Balikov, S., Kopylova, N., 2010. Pressure Oxidation Of Sulfide Gold-Bearing Concentrates With Double Refractorıness, XXV. International Mineral Processing Congress (IMPC 2010), Brisbane, QLD, Australia.
  • Cardenas, R., Miranda, H., Krutzelmann, H., 2018. Technical Report on the Pueblo Viejo Mine, Sanchez Ramirez Province, Dominican Republic, NI 43-101.
  • Celep, O., Alp, İ., 2008. Karıştırmalı Değirmenler ile İnce Öğütmenin Refrakter Altın Cevherlerine Uygulanabilirliğinin İncelenmesi. Madencilik, 47(3), 15-26.
  • Celep, O., Bas, A.D., Yazici, E.Y., Alp, I., Deveci, H., 2015. Improvement of silver extraction by ultrafine grinding prior to cyanide leaching of the plant tailings of a refractory silver ore. Miner. Process. Extr. Metall. Rev., 36. doi:10.1080/08827508.2014.928621.
  • Celep, O., Yazıcı, E.Y., Bölük, D., Deveci, H., Alp, İ., 2010. Evaluation of Preg-robbing Potential of Refractory Gold Ores, in: XII. International Mineral Processing Symposium (IMPS). 6-8 October, Kapadokya, 673–679.
  • Chan, T., Collins, M., Dennett, J., Stiksma, J., Ji, J., Kalanchey, R., Berezowsky, R., 2015. Pilot plant pressure oxidation of refractory gold-silver concentrate from Eldorado Gold Corporation’s Certej Project in Romania. Can. Metall. Q. 54, 252–260. doi:10.1179/1879139515Y.0000000018
  • Dutrizac, J.E., Dinardo, O., 1983. The co-precipitation of copper and zinc with lead jarosite. Hydrometallurgy 11, 61–78. doi:10.1016/0304-386X(83)90016-6
  • Estay, H., 2018. Designing the SART process – A review. Hydrometallurgy, 176, 147–165. https://doi.org/10.1016/j.hydromet.2018.01.011
  • Fleming, C.A., 2010. Basic iron sulfate - a potential killer in the processing of refractory gold concentrates by pressure oxidation. Mining, Metall. Explor. 27, 81–88. doi:10.1007/BF03402383
  • Fleming, C.A., 2011. Dealing with cyanide-soluble copper in the gold mining industry. Fray International Symposium on Metals and Materials Processing in a Clean Environment, 27 Kasım-1 Aralık, Mexico, 173-190.
  • Ford, K.J.R., Fleming, C.A., Henderson, R.D., 2008. Application of the SART process to heap leaching of gold-copper ores at Maricunga, Chile, 40th Annual Meeting of the Canadian Mineral Processors, 22-24 Ocak, Kanada.
  • Gudyanga, F.P., Mahlangu, T., Roman, R.J., Mungoshi, J., Mbeve, K., 1999. An acidic pressure oxidation pre-treatment of refractory gold concentrates from the KweKwe roasting plant, Zimbabwe. Miner. Eng., 12, 863–875. doi:10.1016/S0892-6875(99)00074-6
  • Guzman, I., Thorpe, S.J., Papangelakis, V.G., 2018. Redox potential measurement during pressure oxidation (POX) of a refractory gold ore. Canadian Metallurgical Quarterly, 57, 382–389. doi:10.1080/00084433.2017.1386363
  • Habashi, F., 1999. A Textbook Of Hydrometallurgy, Metalurgie Extractive Quebec Puplications, Kanada,739 syf.
  • Hadi, A., Karimi, P., Amini, A., Akcil, A., 2015. Direct Cyanidation And Roasting Combination of a Semi-Refractory Massive Sulfide Ore, Minerals And Metallurgical Processing. 32. 161-169. doi:10.1007/BF03402284.
  • HAQUE, K.E., 1987. Gold Leaching from Refractory Ores—Literature Survey. Miner. Process. Extr. Metall. Rev., 2, 235–253. doi:10.1080/08827508708952607 HSC-Chemistry, 2011. Chemical Reaction and Equilibrium Software, Outotec Research Oy, v. 7.01
  • Javed, T., 2017. Iron precipitation and associated metal loss from simulated process solutions. Doktora tezi, The University of British Columbia, Kanada, 220 syf.
  • La Brooy, S., Linge, H.G., Walker, G.S., 1994. Review of Gold Extraction from Ores. Miner. Eng. 7, 1213-1241. doi:10.1016/0892-6875(94)90114-7.
  • Logsdon, M.J., Hagelstein, K., Mudder, T.I. 1999. The Management of Cyanide in Gold Extraction, International Council on Metals and the Enviroment, Ottowa, Ontario, Canada.
  • Long, H. 2000. Fundamental Study of the Acidic Pressure Oxidation of Orpiment and Pyrite at High Temperature, Doktora Tezi, British Columbia Üniversitesi, Kanada.
  • Marsden, J.O., House, C.L., 2006. The Chemistry Of Gold Extraction, SME, Colorado, 651 s.
  • Msumange, D.A., Yazıcı, E.Y., Celep, O., Deveci, Haci. 2020. Investıgatıon Of The Amenability Of A Copper-Rich Refractory Gold Ore To Cyanide Leaching. Bilimsel Madencilik Dergisi, 225-234. doi:10.30797/Madencilik.843761.
  • Muir, D.M., 2011. A review of the selective leaching of gold from oxidized copper-gold ores with ammonia-cyanide and new insights for plant control and operation. Miner. Eng. 24, 576-582.
  • Muse, S. M., 2019. Refrakter Altın Cevherlerinin Basınç Oksidasyonu, Yüksek Lisans Tezi, Karadeniz Teknik Üniversitesi, Fen Bilimleri Enstitüsü, Trabzon, 119 s.
  • Nan, X., Cai, X. ve Kong, J., 2013. Pretreatment Process on Refractory Gold Ores with As, ISIJ International. 54. 543-547. doi:10.2355/isijinternational.54.543.
  • Nyavor, K. ve Egiebor, N.O., 1992. Application Of Pressure Oxidation Pretreatment to a Double-Refractory Gold Concentrate, Canadian Institute of Mining, Metallurgy and Petroleum, 223-288.
  • Parkinson, G., Ibrado, A., Dunn, G. Mora, N., Teo, Y.Y., 2014. Pressure Oxidation of Refractory Gold Ores: The Metates Gold Project Experience, in: ALTA 2014 Gold-PM Proceedings. pp. 1–23.
  • Rusanen L., Aromaa J. ve Forsen, O., 2013. Pressure Oxidation Of Pyrite-Arsenopyrite Refractory Gold Concentrate, Physicochemical Problems of Mineral Processing, 49(1), 101-109. doi:10.5277/ppmp130110
  • Rusanen, L., Aromaa, J., Forsen, O., 2013. Pressure oxidation of pyrite-arsenopyrite refractory gold concentrate. Physicochem. Probl. Miner. Process., 49, 101–109.
  • Sayın, Z.E., 2010. Altın Konsantresinden Doğrudan Liç ile Altın Eldesi, Doktora Tezi, Dokuz Eylül Üniversitesi, Fen Bilimleri Enstitüsü, İzmir, 175 syf.
  • Sceresini, B., Breuer, P., 2016. Gold-copper ores. Gold Ore Processing, 2nd Edition, Chapter 43, Editor: Adams, M. D., Elsevier.
  • Sceresini, B., Breuer, P., 2016. Gold-Copper Ores, Adams, M.D. (Ed.), Gold Ore Processing. Elsevier Science, 771–801.
  • Strauss, J., 2015. Low Grade Refractory Gold Ore - Is POX the Solution ?, in: ALTA 2015 Gold-Precious Metals Conference. pp. 188–209.
  • Strauss, J.A., Yahorava, V., Gomez, M.A., 2017. Pressure Oxidation in Gold Circuits: Basic Ferric Arsenate Sulphate and Basic Ferric Sulphate Behaviour in Downstream Processing, COM 2017, The Conference of Metallurgists. Canadian Institute of Mining, Metallurgy and Petroleum, 11 s.
  • Thomas, K.G., 2005. Pressure Oxidation Overview. Developments in Mineral Processing, Editor: Adams, M. D., Chapter 15, Advances in Gold Ore Processing, 346-369.
  • Thomas, K.G., Pearson, M.S., 2016. Pressure Oxidation Overview, in: Adams, M.D. (Ed.), Gold Ore Processing. Elsevier, London, 341–358.
  • Thompson, P., Diaz, M., Plenge, G., 1994. Pressure Oxidation of Silver-Bearing Sulfide Flotation Concentrates. Mining Engineering, 1195-1200.
  • Van Weert, G., Tuinman, I.L. 1993. Procs. of SME Annual Meeting, Reno, Nevada, preprint number 93-59.
  • Yazici, E.Y., Ahlatci, F., Koc, E., Celep, O., Deveci, H., 2015. Pre-treatment of a Copper-rich Gold Ore for Elimination of Copper Interference. 8th European Metallurgical Conference (EMC), Dusseldorf, Vol. 2, 601-613.
  • Yazici, E.Y., Bas, A.D., Deveci, H., 2014. Jarosite Precipitation of Iron from Leach Solutions of Waste Printed Circuit Boards (WPCBs), in: Proceedings of the XIV. International Mineral Processing Symposium And Exhibition (IMPS), 15-17 Oct. Kuşadası, Turkey, 483–488.
There are 49 citations in total.

Details

Primary Language Turkish
Journal Section Orijinal Araştırma
Authors

Saleban Mohamed Muse 0000-0002-1453-1932

Ersin Yener Yazıcı 0000-0002-8711-0784

Oktay Celep 0000-0001-9024-4196

Hacı Deveci 0000-0003-4105-0912

Publication Date December 21, 2021
Submission Date May 6, 2021
Published in Issue Year 2021

Cite

APA Mohamed Muse, S., Yazıcı, E. Y., Celep, O., Deveci, H. (2021). BAKIR İÇERİĞİ YÜKSEK PİRİTİK BİR ALTIN KONSANTRESİNİN BASINÇ OKSİDASYONU. Bilimsel Madencilik Dergisi, 60(4), 197-207. https://doi.org/10.30797/madencilik.932319
AMA Mohamed Muse S, Yazıcı EY, Celep O, Deveci H. BAKIR İÇERİĞİ YÜKSEK PİRİTİK BİR ALTIN KONSANTRESİNİN BASINÇ OKSİDASYONU. Madencilik. December 2021;60(4):197-207. doi:10.30797/madencilik.932319
Chicago Mohamed Muse, Saleban, Ersin Yener Yazıcı, Oktay Celep, and Hacı Deveci. “BAKIR İÇERİĞİ YÜKSEK PİRİTİK BİR ALTIN KONSANTRESİNİN BASINÇ OKSİDASYONU”. Bilimsel Madencilik Dergisi 60, no. 4 (December 2021): 197-207. https://doi.org/10.30797/madencilik.932319.
EndNote Mohamed Muse S, Yazıcı EY, Celep O, Deveci H (December 1, 2021) BAKIR İÇERİĞİ YÜKSEK PİRİTİK BİR ALTIN KONSANTRESİNİN BASINÇ OKSİDASYONU. Bilimsel Madencilik Dergisi 60 4 197–207.
IEEE S. Mohamed Muse, E. Y. Yazıcı, O. Celep, and H. Deveci, “BAKIR İÇERİĞİ YÜKSEK PİRİTİK BİR ALTIN KONSANTRESİNİN BASINÇ OKSİDASYONU”, Madencilik, vol. 60, no. 4, pp. 197–207, 2021, doi: 10.30797/madencilik.932319.
ISNAD Mohamed Muse, Saleban et al. “BAKIR İÇERİĞİ YÜKSEK PİRİTİK BİR ALTIN KONSANTRESİNİN BASINÇ OKSİDASYONU”. Bilimsel Madencilik Dergisi 60/4 (December 2021), 197-207. https://doi.org/10.30797/madencilik.932319.
JAMA Mohamed Muse S, Yazıcı EY, Celep O, Deveci H. BAKIR İÇERİĞİ YÜKSEK PİRİTİK BİR ALTIN KONSANTRESİNİN BASINÇ OKSİDASYONU. Madencilik. 2021;60:197–207.
MLA Mohamed Muse, Saleban et al. “BAKIR İÇERİĞİ YÜKSEK PİRİTİK BİR ALTIN KONSANTRESİNİN BASINÇ OKSİDASYONU”. Bilimsel Madencilik Dergisi, vol. 60, no. 4, 2021, pp. 197-0, doi:10.30797/madencilik.932319.
Vancouver Mohamed Muse S, Yazıcı EY, Celep O, Deveci H. BAKIR İÇERİĞİ YÜKSEK PİRİTİK BİR ALTIN KONSANTRESİNİN BASINÇ OKSİDASYONU. Madencilik. 2021;60(4):197-20.

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