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Studies of lithium sorption process from mine waters with manganese oxides
Języki publikacji
Abstrakty
W artykule przedstawiono wyniki prac nad możliwością pozyskiwania litu z odpadowych wód kopalnianych. Dokonano przeglądu literatury dotyczącej syntezy materiałów do selektywnej sorpcji litu z roztworów wodnych oraz badań dotyczących pozyskiwania litu z wód solankowych metodami sorpcyjnymi. Przeprowadzono badania syntezy sorbentów do selektywnej sorpcji litu oraz sorpcji litu z roztworów syntetycznych odpowiadających składem wodom kopalnianym bogatym w lit.
This paper presents the results of research on the possibility of obtaining lithium from waste mine waters. The literature research on the synthesis of selective lithium sorption materials and studies on obtaining lithium from brine waters was reviewed. The studies of synthesis of sorbents for selective sorption of lithium and sorption of lithium from synthetic solutions of mine waters rich in lithium was presented.
Wydawca
Czasopismo
Rocznik
Tom
Strony
14--19
Opis fizyczny
Bibliogr. 40 poz., tab., rys.
Twórcy
autor
- Sieć Badawcza Łukasiewicz - Instytut Metali Nieżelaznych, Zakład Ochrony Środowiska, ul. Sowińskiego 5, 44-100 Gliwice
autor
- Sieć Badawcza Łukasiewicz i Instytut Metali Nieżelaznych, Zakład Materiałów Proszkowych i Kompozytowych
autor
- Sieć Badawcza Łukasiewicz i Instytut Metali Nieżelaznych, Zakład Materiałów Proszkowych i Kompozytowych
autor
- Sieć Badawcza Łukasiewicz i Instytut Metali Nieżelaznych, Zakład Materiałów Proszkowych i Kompozytowych
autor
- Sieć Badawcza Łukasiewicz i Instytut Metali Nieżelaznych, Zakład Materiałów Proszkowych i Kompozytowych
autor
- Sieć Badawcza Łukasiewicz i Instytut Metali Nieżelaznych, Zakład Materiałów Proszkowych i Kompozytowych
autor
- Sieć Badawcza Łukasiewicz - Instytut Metali Nieżelaznych, Zakład Technologii Przetwórstwa Metali i Stopów
Bibliografia
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- [2] https:/minerals.usgs.gov/minerals/pubs/commodity/lithium/mcs-2018-lithi.pdf dostęp 2018-06-25.
- [3] Vikström Hanna, Simon Davidsson, Mikael Höök. 2013. „Lithium availability and future production outlooks”. Applied Energy 110: 252–266.
- [4] Bukowski Krzysztof, Grzegorz Czapowski. „Wody mineralne jako źródło surowców chemicznych”. http:/surowce-chemiczne.pgi.gov. pl/wody_min.htm dostęp 2018-06-27.
- [5] Swain Basudev. 2017. „Recovery and recycling of lithium: A review”. Separation and Purification Technology 172: 388–403.
- [6] Gu Donglei, Wenjun Sun, Guofei Han, Qun Cui, Haiyan Wang. 2018. „Lithium ion sieve synthesized via an improved solid state method and adsorption performance for West Taijinar Salt Lake brine”. Chemical Engineering Journal 350: 474-483.
- [7] Wang Shulei, Ping Li, Xin Zhang, Shili Zheng, Yi Zhang. 2017. „Selective adsorption of lithium from high Mg-containing brines Rusing HxTiO3 ion sieve”. Hydrometallurgy 174: 21–28.
- [8] Ji Zhi-Yong, Feng-Juan Yang, Ying-Ying Zhao, Jie Liu, Ni Wang, Jun-Sheng Yuan. 2017. „Preparation of titanium-base lithium ionic sieve with sodium persulfate as eluent and its performance”. Chemical Engineering Journal 328: 768–775.
- [9] Ammundsen Brett, Phillip B. Aitchison, Gary R. Burns, Deborah J. Jones, Jacques Rozière. 1997. „Proton insertion and lithium-proton exchange in spinel lithium manganates”. Solid State Ionics 97: 269–276.
- [10] Ma Liwen, Zuoren Nie, Xiaoli Xi, Linyan Zhao, Baizhen Chen. „Lithium ion-sieve: Characterization and Li+ adsorption in ammonia buffer system”. 2017. Journal of Environmental Chemical Engineering 5: 995–1003.
- [11] Hunter James C.. 1981. „Preparation of a new crystal form of manganese dioxide: λ-MnO ”. Journal of Solid State Chemistry 39: 142–147.
- [12] Wang Lu, Chang Gong Meng, Wei Ma. 2009. „Study on Li+ uptake by lithium ion-sieve via the pH technique”. Colloids and Surfaces A: Physicochemical and Engineering Aspects 334: 34–39.
- [13] Xu Xin, Yongmei Chen, Pingyu Wan, Khaled Gasem, Kaiying Wang, Ting He, Hertanto Adidharma, Maohong Fan. 2016. „Extraction of lithium with functionalized lithium ion-sieves”. Progress in Materials Science 84: 276–313.
- [14] Wang Chang, Yanlong Zhai, Xi Wang, Ming Zeng. 2014. „Preparation and characterization of lithium λ-MnO2 ion-sieves”, Frontiers of Chemical Science and Enginiring 8(4): 471–477.
- [15] Yang Xiaojing, Hirofumi Kanoh, Weiping Tang, Kenta Ooi. 2000. „Synthesis of Li1.33Mn1.67O4 spinels with different morphologies and their ion adsorptivities after delithiation”. Journal of Material Chemistry 10: 1903–1909.
- [16] Chitrakar Ramesh, Kohji Sakane, Aya Umeno, Shuji Kasaishi, Norio Takagi, Kenta Ooi. 2002. „Synthesis of orthorhombic LiMnO2 by solid-phase reaction under steam atmosphere and a study of its heat and acid-treated phases”. Journal of Solid State Chemistry 169:66–74.
- [17] Shi Xichang, Dingfang Zhou, Zhibing Zhang, Liangliang Yu, Hui Xu, Baizhen Chen, Xiyun Yang. 2011. „Synthesis and properties of Li1.6Mn1.6O4 and its adsorption application”. Hydrometallurgy 110: 99–106.
- [18] Kosova N. V., N. F. Uvarov, E. T. Devyatkina, E. G. Avvakumov. 2000. „Mechanochemical synthesis of LiMn2O4 cathode material for lithium batteries”. Solid State Ionics 135:107–14.
- [19] Kim Yang-Soo, Kwang-Soo No, Kang-Sup Chung, Jea-Chun Lee, Kenta Ooi. 2003. „Li+ extraction reactions with spinel-type LiM0.5Mn1.5O4 (M = Ti, Fe) and their electronic structures”. Materials Letters 57:4140–4146.
- [20] Chitrakar Ramesh, Yoji Makita, Kenta Ooi, Akinari Sonoda. 2014. „Synthesis of Iron-Doped Manganese Oxides with an Ion- Sieve Property: Lithium Adsorption from Bolivian Brine”. Industrial & Engineering Chemistry Research 53: 3682−3688.
- [21] Ma Li-wen, Bai-zhen Chen, Xi-chang Shi, Kun Zhang. 2011. „Li+ extraction/adsorption properties of Li-Sb-Mn composite oxides in aqueous medium”. 2011. Transactions of Nonferrous Metals Society of China 21:1660–1664.
- [22] Wang Shulei, Shili Zheng, Zheming Wang, Wenwen Cui, Hailin Zhang, Liangrong Yang, Yi Zhang, Ping Li. 2018. „Superior lithium adsorption and required magnetic separation behavior of iron-doped lithium ion-sieves”, Chemical Engineering Journal 332: 160–168.
- [23] Wang Shulei, Xin Chen, Ying Zhang, Yang Zhang, Shili Zheng. 2018. „Lithium adsorption from brine by iron-doped titanium lithium ion sieves”, Particuology 41: 40-47.
- [24] Fu Yen-Pei, Yu-Hsiu Su, Cheng-Hiung Lin, She-Huang Wu. 2009. „Comparison of the microwave-induced combustion and solid-state reaction for the synthesis of LiMn2O4 powder and their electrochemical properties”. Ceramics International 35: 3463–3468.
- [25] Chitrakar Ramesh, Hirofumi Kanoh, Yoshitaka Miyai, Kenta Ooi. 2002. „Synthesis of o-LiMnO2 by Microwave Irradiation and Study Its Heat Treatment and Lithium Exchange”, Journal of Solid State Chemistry 163: 1-4.
- [26] Onodera Yoshio, Takashi Iwasaki, Hiromichi Hayashi, Kazuo Torii. 1990. „Preparation method and lithium adsorption property of λ-MnO2-silica composite”. Chemistry Letters 19:1801–1804.
- [27] Hong Hye-Jin, In-Su Park, Jungho Ryu, Taegong Ryu, ByoungGyu Kim, Kang-Sup Chung. 2015. „Immobilization of hydrogen manganese oxide (HMO) on alpha-alumina bead (AAB) to effective, recovery of Li+ from seawater”. Chemical Engineering Journal 271:71–78.
- [28] Xiao Guoping, Kefeng Tong, Longsheng Zhou, Jiali Xiao, Shuying Sun, Ping Li, Jianguo Yu. 2012. „Adsorption and Desorption Behavior of Lithium Ion in Spherical PVC−MnO2 Ion Sieve”. Industrial & Engineering Chemistry Research 51:10921−10929.
- [29] Kitajou Ayuko, Takuya Suzuki, Syouhei Nishihama, Kazuharu Yoshizuka. 2003. „Selective Recovery of Lithium from Seawater Using a Novel MnO2 Type Adsorbent II – Enhancement of Lithium Ion Selectivity of the Adsorbent”, Ars Separatoria Acta 2:97-106.
- [30] Yoshizuka Kazuharu, Ayuko. Kitajou, Marek Holba. 2006. „Selective Recovery of Lithium from Seawater Using a Novel MnO2 Type Adsorbent III – Benchmark Evaluation” Ars Separatoria Acta 4:78-85.
- [31] Hong Hye-Jin, In-Su Park, Taegong Ryu, Jungho Ryu, Byoung-Gyu Kim, Kang-Sup Chung. 2013. „Granulation of Li1.33Mn1.67O4 (LMO) through the use of cross-linked chitosan for the effective recovery of Li+ from seawater”. Chemical Engineering Journal 234: 16–22.
- [32] Ryu Taegong, Yuvaraj Haldorai, Arunkumar Rengaraj, Junho Shin, Hye-Jin Hong, Go-Woon Lee, Yong-Kyu Han, Yun Suk Huh, Kang-Sup Chung. 2016. „Recovery of Lithium Ions from Seawater Using a Continuous Flow Adsorption Column Packed with Granulated Chitosan−Lithium Manganese Oxide”. Industrial & Engineering Chemistry Research 55: 7218−7225.
- [33] Ma Li-Wen, Bai-Zhen Chen, Ya Chen, Xi-Chang Shi. 2011. „Preparation, characterization and adsorptive properties of foam- type lithium adsorbent”. Microporous and Mesoporous Materials 142: 147–153.
- [34] Nisola Grace M., Lawrence A. Limjuco, Eleazer L. Vivas, Chosel P. Lawagon, Myoung Jung Park, Ho Kyong Shon, Neha Mittal, In Wook Nah, Hern Kim, Wook-Jin Chung. 2015. “Macroporous flexible polyvinyl alcohol lithium adsorbent foam composite prepared via surfactant blending and cryo-desiccation”, Chemical Engineering Journal 280: 536–548.
- [35] Limjuco Lawrence A., Grace M. Nisola, Chosel P. Lawagon, Seong-Poong Lee, Jeong Gil Seo, Hern Kim, Wook-Jin Chung. 2016. „H2TiO3 composite adsorbent foam for efficient and continuous recovery of Li+ from liquid resources”. Colloids and Surfaces A: Physicochemical and Engineering Aspects 504: 267–279.
- [36] Umeno Aya, Yoshitaka Miyai, Norio Takagi, Ramesh Chitrakar, Kohji Sakane, Kenta Ooi. 2002. „Preparation and adsorptive properties of membrane-type adsorbents for lithium recovery from seawater”. Industrial & Engineering Chemistry Research 41: 4281–4287.
- [37] Zhu Guiru, Pan Wang, Pengfei Qi, Congjie Gao. 2014. „Adsorption and desorption properties of Li+ on PVC-H1.6Mn1.6O4 lithium ion-sieve membrane”. Chemical Engineering Journal 235: 340–348.
- [38] Park Myoung Jun, Grace M. Nisola, Eleazer L. Vivas, Lawrence A. Limjuco, Chosel P. Lawagon, Jeong Gil Seo, Hern Kim, Ho Kyong Shon, Wook-Jin Chung. 2016. „Mixed matrix nanofiber as a flow-through membrane adsorber for continuous Li+ recovery from seawater”, Journal of Membrane Science 510: 141–154.
- [39] Park Myoung Jun, Grace M. Nisola, Arnel B. Beltran, Rey Eliseo C. Torrejos, Jeong Gil Seo, Seong-Poong Lee, Hern Kim, Wook-Jin Chung. 2014. „Recyclable composite nanofiber adsorbent for Li+ recovery from seawater desalination retentate”. Chemical Engineering Journal 254: 73–81.
- [40] Chung, Wook-Jin, Rey Eliseo C. Torrejos, Myoung Jun Park, Eleazer L. Vivas, Lawrence A. Limjuco, Chosel P. Lawagon, Khino J. Parohinog, Seong-Poong Lee, Ho Kyong Shon, Hern Kim, Grace M. Nisola. 2017. „Continuous lithium mining from aqueous resources by an adsorbent filter with a 3D polymeric nanofiber network infused with ion sieves”. Chemical Engineering Journal 309: 49–62.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6d1bb2d8-9c39-432a-8034-2287929a006c