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Production of rare-earth oxides from Eskişehir-Beylikova complex ores

Yıl 2023, Cilt: 170 Sayı: 170, 87 - 97, 17.04.2023
https://doi.org/10.19111/bulletinofmre.1180222

Öz

In this study, the production technology of barite, fluorite, rare-earth elements, and thorium-bearing rare-earth oxides from the Eskişehir-Beylikova were investigated, and the processes that can be used in the production of thorium-free mixed rare earth oxides were tested. The applied processes are roasting, leaching, solvent extraction and precipitation methods, respectively. After all studies, the optimum roasting temperature and roasting duration are determined as 600 °C and 1 hour. In the extraction stage, the highest leaching efficiency is achieved with 5 M HCl, 1-hour leaching duration, 1/3 solid/liquid ratio and 35 °C leaching temperature. While methyl tri C8-C10 ammonium chloride (Adogen 464) is used for the removal of iron from produced solution, di-(2-ethylhexyl) phosphoric acid (D2EHPA) is used for the removal of thorium. As a result of solvent extraction studies, the solution containing rare earth elements is precipitated under optimum conditions. After precipitation, the product contains 99.65% rare earth oxides.

Destekleyen Kurum

MTA General Directorate

Proje Numarası

2020-35-16-01- 8

Teşekkür

This study was supported within the scope of the scientific research project titled “Technological Evaluation of Eskişehir Beylikova Complex Ore and Development of Production Process” of MTA General Directorate with the code 2020-35-16-01- 8. The authors thank to Zümrüt ALKAN and Ayşe KOYUNCU for their assistance with the analyses.

Kaynakça

  • Altaş, Y., Tel, H., İnan, S., Sert, Çetinkaya, B., Sengül, S., Özkan, B. 2018. An experimental design approach for the separation of thorium from rare earth elements. Hydrometallurgy 178, 97–105.
  • Cheisson, T., Schelter, E. J. 2019. Rare earth elements: Mendeleev’s bane, modern marvels. American Association for the Advancement of Science 363( 6426), 489–493.
  • Chi, R., Zhang, X., Zhu, G., Zhou, Z. A., Wu, Y., Wang, C.,Yu, F. 2004. Recovery of rare earth from bastnasite by ammonium chloride roasting with fluorine deactivation. Minerals Engineering 17(9–10), 1037–1043.
  • Choppin, G. R., Morgenstern, A. 2000. Thermodynamics of solvent extraction. Solvent Extraction and Ion Exchange 18(6), 1029–1049.
  • El Afifi, E. M., Borai, E. H., Shahr El-Din, A. M. 2019. New approaches for efficient removal of some radionuclides and iron from rare earth liquor of monazite processing. International Journal of Environmental Science and Technology, 16(12), 7735–7746.
  • Erdem, A., Babuçcuoğlu, Y., Güneş, H., Obuz, H. E., Özdemir, E., Kara, Ç., Diktepe, Ş., Akgül, M. B., Özen İlik, B., Akçay, H. 2021. Nadir Toprak Minerallerinin Fiziksel Ayrılması ve Flotasyonu. Derleme. International Journal of Pure and Applied Sciences 7(2), 321-345.
  • Erdem, A., Güneş, H., Kara, Ç., Akçay, H., Gülmez, A., Alkan, Z. 2020. Production of high purity thorium oxide from complex ores leach liquor. Bulletin of the Mineral Research and Exploration 164, 1–7.
  • European Comission. 2020. Communication from the commission to the European parlıament, the council, the European economic and social committee and the committee of the regions.
  • Judge, W. D., Azimi, G. 2020. Recent progress in impurity removal during rare earth element processing: A review. Hydrometallurgy 196, 105435.
  • Krishnamurthy, N., Gupta, C. K. 2015. Extractive Metallurgy of Rare Earths. CRC Press, United State of America. Kul, M., Topkaya, Y.,
  • Karakaya, I. 2008. Rare earth double sulfates from pre-concentrated bastnasite. Hydrometallurgy, 93(3–4), 129–135.
  • Lawrance, G. A. 2010. Introduction to Coordination Chemistry. John Wiley and Sons Ltd.,United Kingdom.
  • Obuz, H. E., Günes, H., Kara, A., Ugurluer, D., Babuccuoglu, Y., Alkan, M. 2018. Leaching Kinetics of Rare-Earth Elements from Complex Ores by Acidic Solutions. Extraction, 2391–2398.
  • Qi, D. 2018. Hydrometallurgy of Rare Earths : Extraction and Separation. Elsevier, 1-797.
  • Rydberg, J., Choppin, G. R., Musikas, C., Sekine, T. 2004. Solvent Extraction Equilibria. Solvent Extraction Principles and Practice, Revised and Expanded. CRC Press, 121–217.
  • Swain, N., Mishra, S. 2019. A review on the recovery and separation of rare earths and transition metals from secondary resources. International Journal of Cleaner Production 220, 884–898.
  • Walawalkar, M., Nichol, C. K., Azimi, G. 2016. Process investigation of the acid leaching of rare earth elements from phosphogypsum using HCl, HNO3, and H2SO4. Hydrometallurgy 166, 195–204.
  • Yeşilören Görmüş, N., Gürtekin, G., Erdem, A., Gülmez, A. 2021. Kızılcaören (Sivrihisar) bölgesi nadir toprak element (NTE) içeren minerallerin mineral serbestleşme analiz (MLA) yöntemi kullanılarak tayini. International Journal of Pure and Applied Sciences 7(2), 251-264.
  • Zhao, L., Wang, L., Shuai, G., Long, Z., Cui, D., Huang, X. 2018. Thermal decomposition and oxidation of bastnaesite concentrate in inert and oxidative atmosphere. Journal of Rare Earths 36(7), 758–764.
Yıl 2023, Cilt: 170 Sayı: 170, 87 - 97, 17.04.2023
https://doi.org/10.19111/bulletinofmre.1180222

Öz

Proje Numarası

2020-35-16-01- 8

Kaynakça

  • Altaş, Y., Tel, H., İnan, S., Sert, Çetinkaya, B., Sengül, S., Özkan, B. 2018. An experimental design approach for the separation of thorium from rare earth elements. Hydrometallurgy 178, 97–105.
  • Cheisson, T., Schelter, E. J. 2019. Rare earth elements: Mendeleev’s bane, modern marvels. American Association for the Advancement of Science 363( 6426), 489–493.
  • Chi, R., Zhang, X., Zhu, G., Zhou, Z. A., Wu, Y., Wang, C.,Yu, F. 2004. Recovery of rare earth from bastnasite by ammonium chloride roasting with fluorine deactivation. Minerals Engineering 17(9–10), 1037–1043.
  • Choppin, G. R., Morgenstern, A. 2000. Thermodynamics of solvent extraction. Solvent Extraction and Ion Exchange 18(6), 1029–1049.
  • El Afifi, E. M., Borai, E. H., Shahr El-Din, A. M. 2019. New approaches for efficient removal of some radionuclides and iron from rare earth liquor of monazite processing. International Journal of Environmental Science and Technology, 16(12), 7735–7746.
  • Erdem, A., Babuçcuoğlu, Y., Güneş, H., Obuz, H. E., Özdemir, E., Kara, Ç., Diktepe, Ş., Akgül, M. B., Özen İlik, B., Akçay, H. 2021. Nadir Toprak Minerallerinin Fiziksel Ayrılması ve Flotasyonu. Derleme. International Journal of Pure and Applied Sciences 7(2), 321-345.
  • Erdem, A., Güneş, H., Kara, Ç., Akçay, H., Gülmez, A., Alkan, Z. 2020. Production of high purity thorium oxide from complex ores leach liquor. Bulletin of the Mineral Research and Exploration 164, 1–7.
  • European Comission. 2020. Communication from the commission to the European parlıament, the council, the European economic and social committee and the committee of the regions.
  • Judge, W. D., Azimi, G. 2020. Recent progress in impurity removal during rare earth element processing: A review. Hydrometallurgy 196, 105435.
  • Krishnamurthy, N., Gupta, C. K. 2015. Extractive Metallurgy of Rare Earths. CRC Press, United State of America. Kul, M., Topkaya, Y.,
  • Karakaya, I. 2008. Rare earth double sulfates from pre-concentrated bastnasite. Hydrometallurgy, 93(3–4), 129–135.
  • Lawrance, G. A. 2010. Introduction to Coordination Chemistry. John Wiley and Sons Ltd.,United Kingdom.
  • Obuz, H. E., Günes, H., Kara, A., Ugurluer, D., Babuccuoglu, Y., Alkan, M. 2018. Leaching Kinetics of Rare-Earth Elements from Complex Ores by Acidic Solutions. Extraction, 2391–2398.
  • Qi, D. 2018. Hydrometallurgy of Rare Earths : Extraction and Separation. Elsevier, 1-797.
  • Rydberg, J., Choppin, G. R., Musikas, C., Sekine, T. 2004. Solvent Extraction Equilibria. Solvent Extraction Principles and Practice, Revised and Expanded. CRC Press, 121–217.
  • Swain, N., Mishra, S. 2019. A review on the recovery and separation of rare earths and transition metals from secondary resources. International Journal of Cleaner Production 220, 884–898.
  • Walawalkar, M., Nichol, C. K., Azimi, G. 2016. Process investigation of the acid leaching of rare earth elements from phosphogypsum using HCl, HNO3, and H2SO4. Hydrometallurgy 166, 195–204.
  • Yeşilören Görmüş, N., Gürtekin, G., Erdem, A., Gülmez, A. 2021. Kızılcaören (Sivrihisar) bölgesi nadir toprak element (NTE) içeren minerallerin mineral serbestleşme analiz (MLA) yöntemi kullanılarak tayini. International Journal of Pure and Applied Sciences 7(2), 251-264.
  • Zhao, L., Wang, L., Shuai, G., Long, Z., Cui, D., Huang, X. 2018. Thermal decomposition and oxidation of bastnaesite concentrate in inert and oxidative atmosphere. Journal of Rare Earths 36(7), 758–764.
Toplam 19 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Haydar Güneş Bu kişi benim 0000-0002-4990-0662

Hüseyin Eren Obuz 0000-0001-6299-247X

Hasan Akçay Bu kişi benim 0000-0002-5608-8721

Çiğdem Kara Bu kişi benim 0000-0003-1152-3088

Ayşe Erdem 0000-0002-8736-1698

Proje Numarası 2020-35-16-01- 8
Yayımlanma Tarihi 17 Nisan 2023
Yayımlandığı Sayı Yıl 2023 Cilt: 170 Sayı: 170

Kaynak Göster

APA Güneş, H., Obuz, H. E., Akçay, H., Kara, Ç., vd. (2023). Production of rare-earth oxides from Eskişehir-Beylikova complex ores. Bulletin of the Mineral Research and Exploration, 170(170), 87-97. https://doi.org/10.19111/bulletinofmre.1180222
AMA Güneş H, Obuz HE, Akçay H, Kara Ç, Erdem A. Production of rare-earth oxides from Eskişehir-Beylikova complex ores. Bull.Min.Res.Exp. Nisan 2023;170(170):87-97. doi:10.19111/bulletinofmre.1180222
Chicago Güneş, Haydar, Hüseyin Eren Obuz, Hasan Akçay, Çiğdem Kara, ve Ayşe Erdem. “Production of Rare-Earth Oxides from Eskişehir-Beylikova Complex Ores”. Bulletin of the Mineral Research and Exploration 170, sy. 170 (Nisan 2023): 87-97. https://doi.org/10.19111/bulletinofmre.1180222.
EndNote Güneş H, Obuz HE, Akçay H, Kara Ç, Erdem A (01 Nisan 2023) Production of rare-earth oxides from Eskişehir-Beylikova complex ores. Bulletin of the Mineral Research and Exploration 170 170 87–97.
IEEE H. Güneş, H. E. Obuz, H. Akçay, Ç. Kara, ve A. Erdem, “Production of rare-earth oxides from Eskişehir-Beylikova complex ores”, Bull.Min.Res.Exp., c. 170, sy. 170, ss. 87–97, 2023, doi: 10.19111/bulletinofmre.1180222.
ISNAD Güneş, Haydar vd. “Production of Rare-Earth Oxides from Eskişehir-Beylikova Complex Ores”. Bulletin of the Mineral Research and Exploration 170/170 (Nisan 2023), 87-97. https://doi.org/10.19111/bulletinofmre.1180222.
JAMA Güneş H, Obuz HE, Akçay H, Kara Ç, Erdem A. Production of rare-earth oxides from Eskişehir-Beylikova complex ores. Bull.Min.Res.Exp. 2023;170:87–97.
MLA Güneş, Haydar vd. “Production of Rare-Earth Oxides from Eskişehir-Beylikova Complex Ores”. Bulletin of the Mineral Research and Exploration, c. 170, sy. 170, 2023, ss. 87-97, doi:10.19111/bulletinofmre.1180222.
Vancouver Güneş H, Obuz HE, Akçay H, Kara Ç, Erdem A. Production of rare-earth oxides from Eskişehir-Beylikova complex ores. Bull.Min.Res.Exp. 2023;170(170):87-9.

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