Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions

Ehsani, Ilhan; Temel, Abidin; Obut, Abdullah; Deveci, Haci; Aktosun, Zeynep; Yörükoğlu, Abdulkerim; Girgin, İsmail

doi:10.30728/boron.757308

Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions

Abdullah Obut, (Hacettepe Üniversitesi, Maden Mühendisliği Bölümü, Ankara, Türkiye)

İlhan Ehsani, (Hacettepe Üniversitesi, Maden Mühendisliği Bölümü, Ankara, Türkiye)

Zeynep Aktosun, (Bor Araştırma Enstitüsü, Ankara, Türkiye)

Abdülkerim YÖRÜKOĞLU, (Bor Araştırma Enstitüsü, Ankara, Türkiye)

İsmail Girgin, (Bor Araştırma Enstitüsü, Ankara, Türkiye)

Abidin Temel, (Hacettepe Üniversitesi, Jeoloji Mühendisliği Bölümü, Ankara, Türkiye)

Hacı Deveci (Karadeniz Teknik Üniversitesi, Maden Mühendisliği Bölümü, Trabzon, Türkiye)

BOR DERGİSİ

21 2

Yıl: 2020 Cilt: 5 Sayı: 4 Sayfa Aralığı: 170 - 175 Metin Dili: İngilizce DOI: 10.30728/boron.757308 İndeks Tarihi: 13-12-2021

Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions

Öz:

In this study, the leaching behaviour of lithium, together with cesium and rubidium, from a clay sample of Kırka borate deposit in sulfuric acid solutions was investigated with chemical, XRD, FTIR, DTA analyses methods and specific surface area measurements. It was observed that the leaching behaviours of lithium, cesium and rubidium were quite similar in character in that their extent of leaching tended to improve with increasing sulfuric acid concentration, especially in the range of 0.1 to 2 mol·dm-3, at the highest leaching temperature of 363 K. Further increase of the acid concentration to 4 mol·dm-3 H2SO4 appeared to have a limited improvement in their extent of leaching. Under the optimum conditions, 2 mol·dm-3 H2SO4 concentration and 363 K leaching temperature, the leaching ratios reached for lithium (Li), cesium (Cs) and rubidium (Rb) were 97.2%, 83.7% and 65.2%, respectively. The results of XRD, FTIR and DTA analyses applied to the clay sample and the leaching residue obtained after leaching of the clay sample under the optimum conditions collectively showed that almost complete destruction of crystalline smectite structure(s) in the clay sample caused by acid leaching resulted in the formation of amorphous silica phase in the leaching residue. During this transformation, as expected, the specific surface area of the clay sample increased, from 59 to 406 m2/g. The results obtained in this preliminary study may be exploited for the treatment of very high tonnages of clay containing processing waste of Kırka boron plant as potential Li (Cs and/or Rb) resource.

Anahtar Kelime:

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

[1] Vikström H., Davidsson S., Höök M., Lithium availabil-ity and future production outlooks, Appl. Energy, 110, 252-266, 2013.
[2] Meshram P., Pandey B. D., Mankhand T. R., Extraction of lithium from primary and secondary sources by pre-treatment, leaching and separation: A comprehensive review, Hydrometallurgy, 150, 192-208, 2014.
[3] Choubey P. K., Kim M. S., Srivastava R. R., Lee J. C., Lee J. Y., Advance review on the exploitation of the prominent energy-storage element: Lithium. Part I: From mineral and brine resources, Miner. Eng., 89, 119-137, 2016.
[4] Swain B., Recovery and recycling of lithium: A review, Sep. Purif. Technol., 172, 388-403, 2017.
[5] Li H., Eksteen J., Kuang G., Recovery of lithium from mineral resources: State-of-the-art and perspectives-A review, Hydrometallurgy, 189, 105129, 2019.
[6] Tadesse B., Makuei F., Albijanic B., Dyer L., The be-neficiation of lithium minerals from hard rock ores: A review, Miner. Eng., 131, 170-184, 2019.
[7] Gu H., Guo T., Wen H., Luo C., Cui Y., Du S., Wang N., Leaching efficiency of sulfuric acid on selective lithium leachability from bauxitic claystone, Miner. Eng., 145, 106076, 2020.
[8] Karrech A., Azadi M. R., Elchalakani M., Shahin M. A., Seibi A. C., A review on methods for liberating lithium from pegmatites, Miner. Eng., 145, 106085, 2020.
[9] Helvaci C., Mordogan H., Çolak M., Gündogan I., Presence and distribution of lithium in borate deposits and some recent lake waters of west-central Turkey, Int. Geol. Rev., 46, 177-190, 2004 (in Turkish).
[10] Mordoğan H., Akdağ M., Helvacı C., Lithium recover from low-grade lithium-bearing clays by H2SO4 and roast-water leach processes, Geosound, 24, 141-150, 1994 (in Turkish).
[11] Lee W. J., Yoon S. J., Chon C. M., Heo C. H., Lee G. J., Lee B. H, Cicek M., Lithium extraction from smec-titic clay occurring in lithium-bearing boron deposits in Turkey, J. Miner. Soc. Korea, 29, 167-177, 2016 (in Ko-rean).
[12] Baydır A. T., Erdoğan Y., Dissolution of the rubidium from Eti Mine Kırka Boron Management waste, AKU-J. Sci. Eng., 13, 025702, 2013 (in Turkish).
[13] Gündoğdu M. N., Yılmaz O., Methods of clay mineralo-gy, Proc. 1st Nat. Clay Symp., Adana-Turkey, 319-330, 1984 (in Turkish).
[14] Komadel P., Madejová J., Janek M., Gates W. P., Kirk-patrick R. J., Stucki J. W., Dissolution of hectorite in inorganic acids, Clays Clay Miner., 44, 228-236, 1996.
[15] Steudel A., Batenburg L. F., Fischer H. R., Weidler P. G., Emmerich K., Alteration of swelling clay minerals by acid activation, Appl. Clay Sci., 44, 105-115, 2009.
[16] Van Rompaey K., Van Ranst E., De Coninck F., Vin-devogel N., Dissolution characteristics of hectorite in inorganic acids, Appl. Clay Sci., 21, 241-256, 2002.
[17] Madejová J., Bujdák J., Janek M., Komadel P., Com-parative FT-IR study of structural modifications during acid treatment of dioctahedral smectites and hectorite, Spectrochim. Acta, Part A, 54, 1397-1406, 1998.
[18] Grim, R. E., Clay Mineralogy, 2nd Edition, McGraw-Hill, New York, A.B.D., 1968.
[19] Guggenheim S., Van Groos A. F. K., Baseline stud-ies of the clay minerals society source clays: Thermal analysis, Clays Clay Miner., 49, 433-443, 2001.
[20] Yalçın S., Özbelge Ö., Acid activation of bentonite, Proc. 2nd Nat. Clay Symp., Ankara-Turkey, 229-250, 1985 (in Turkish).
[21] Ehsani İ., Turianicová E., Baláž M., Obut A., Effects of sulphuric acid dissolution on the physical and chemical properties of a natural and a heated vermiculite, Acta Montan. Slovaca, 20, 110-115, 2015.

APA	Obut A, Ehsani I, Aktosun Z, Yörükoğlu A, Girgin İ, Temel A, Deveci H (2020). Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions. , 170 - 175. 10.30728/boron.757308
Chicago	Obut Abdullah,Ehsani Ilhan,Aktosun Zeynep,Yörükoğlu Abdulkerim,Girgin İsmail,Temel Abidin,Deveci Haci Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions. (2020): 170 - 175. 10.30728/boron.757308
MLA	Obut Abdullah,Ehsani Ilhan,Aktosun Zeynep,Yörükoğlu Abdulkerim,Girgin İsmail,Temel Abidin,Deveci Haci Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions. , 2020, ss.170 - 175. 10.30728/boron.757308
AMA	Obut A,Ehsani I,Aktosun Z,Yörükoğlu A,Girgin İ,Temel A,Deveci H Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions. . 2020; 170 - 175. 10.30728/boron.757308
Vancouver	Obut A,Ehsani I,Aktosun Z,Yörükoğlu A,Girgin İ,Temel A,Deveci H Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions. . 2020; 170 - 175. 10.30728/boron.757308
IEEE	Obut A,Ehsani I,Aktosun Z,Yörükoğlu A,Girgin İ,Temel A,Deveci H "Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions." , ss.170 - 175, 2020. 10.30728/boron.757308
ISNAD	Obut, Abdullah vd. "Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions". (2020), 170-175. https://doi.org/10.30728/boron.757308

APA	Obut A, Ehsani I, Aktosun Z, Yörükoğlu A, Girgin İ, Temel A, Deveci H (2020). Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions. BOR DERGİSİ, 5(4), 170 - 175. 10.30728/boron.757308
Chicago	Obut Abdullah,Ehsani Ilhan,Aktosun Zeynep,Yörükoğlu Abdulkerim,Girgin İsmail,Temel Abidin,Deveci Haci Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions. BOR DERGİSİ 5, no.4 (2020): 170 - 175. 10.30728/boron.757308
MLA	Obut Abdullah,Ehsani Ilhan,Aktosun Zeynep,Yörükoğlu Abdulkerim,Girgin İsmail,Temel Abidin,Deveci Haci Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions. BOR DERGİSİ, vol.5, no.4, 2020, ss.170 - 175. 10.30728/boron.757308
AMA	Obut A,Ehsani I,Aktosun Z,Yörükoğlu A,Girgin İ,Temel A,Deveci H Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions. BOR DERGİSİ. 2020; 5(4): 170 - 175. 10.30728/boron.757308
Vancouver	Obut A,Ehsani I,Aktosun Z,Yörükoğlu A,Girgin İ,Temel A,Deveci H Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions. BOR DERGİSİ. 2020; 5(4): 170 - 175. 10.30728/boron.757308
IEEE	Obut A,Ehsani I,Aktosun Z,Yörükoğlu A,Girgin İ,Temel A,Deveci H "Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions." BOR DERGİSİ, 5, ss.170 - 175, 2020. 10.30728/boron.757308
ISNAD	Obut, Abdullah vd. "Leaching behaviour of lithium, cesium and rubidium from a clay sample of Kırka borate deposit in sulfuric acid solutions". BOR DERGİSİ 5/4 (2020), 170-175. https://doi.org/10.30728/boron.757308