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In Honor of Nobel Laureate Dr. Avram Hershko
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SIPS 2024 takes place from October 20 - 24, 2024 at the Out of the Blue Resort in Crete, Greece

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PROGRAM NOW AVAILABLE - CLICK HERE

More than 500 abstracts submitted from over 50 countries


Featuring many Nobel Laureates and other Distinguished Guests

ADVANCED PROGRAM

Orals | Summit Plenaries | Round Tables | Posters | Authors Index


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Oral Presentations


SESSION:
GlassMonPM4-R3
Oktik International Symposium (2nd Intl. Symp. on Sustainable Glass and Polymers Processing and Applications)
Mon. 21 Oct. 2024 / Room: Marika B2
Session Chairs: Sener Oktik; Zhuoer Jiang; Student Monitors: TBA

18:30: [GlassMonPM416] OS
PREPARATION OF HIGH-QUALITY VN VIA CORE-SHELL PRECURSOR METHOD UNDER THE INTERVENTION OF DISPERSANTS
Wenbin Bo1; Yimin Zhang1; Nannan Xue1; Hong Liu1
1Wuhan University of Science and Technology, Wuhan, China
Paper ID: 94 [Abstract]

Vanadium nitride (VN) plays an important role in high-strength steel production due to the unique precipitation strengthening and grain refinement effects [1]. high-purity VN is widely used in the fields of advanced materials, batteries and catalysts since high electrical conductivity, high thermal conductivity and good chemical stability [2, 3]. The traditional method for preparing VN is the carbon thermal reduction method [4]. Nowadays, thermal processing precursor method is highly anticipated for preparing high-quality VN due to lower reaction temperature, simple process, and short production process [5]. This method includes two steps, which the precursors containing the shell of vanadium and core of carbon powders are formed and then the precursors are reduced and nitrided in the N2 atmosphere to obtain VN.

However, carbon powders are difficult to disperse in the solution uniformly owing to the huge surface tension and adsorption properties, and the precursors prepared subsequently are agglomerate. This is the main reason that the reaction is insufficient during the nitrogen reduction process, which affects the quality of VN. 

In response to the above issue, Polyvinyl pyrrolidone (PVP) and the other two dispersants are used to optimize the structure of the precursors in order to prepare high quality VN. Under optimum condition of 1150 °C, the VN with nitrogen content of 17.94% is prepared by adding 5% PVP. When the reaction temperature exceeds 400 °C, the precursors of adding 5% PVP are easily converted to V7O13, V3O5, V2O3 and VN at the same temperature. The precursors of adding 5% PVP have lower Ea during reduction and nitration process, which are easier to be reduced and nitridated. In comparison with the process without adding dispersants, the addition of carbon powders is reduced by 9% and the nitriding time is decreased by 75%, which reduce CO2 emission, the energy consumption for generation and the production cost.

References:
[1] J. Klemm-Toole, A.J. Clarke, K.O. Findley. Mater. Sci. Eng., R: A, 810 (2021) 141008.
[2] R.K. Li, J.Q. Lu, C.J. Li, Y. Cui, D.F. Lv, Y.J. Chen, Y.N. Wei, H.Y. Wei, B. Liang, J.L. Bu. Colloids Surf., A, 686 (2024) 133420.
[3] D. Chen, M.J. Lu, B.R. Wang, R.Q. Chai, L. Li, D. Cai, H. Yang, B.K. Liu, Y.P. Zhang, W. Han. Energy Stor., 35(2021) 679-686.
[4] M.T. Ye, N.J. Bu, L. Chen, R. Li, Q. Zhen. Ceram. Int., 50(5) (2024) 7458-7468.
[5] J.L. Han, Y.M. Zhang, T. Liu, J. Huang, N.N. Xue, P.C. Hu. Metals, 7(9) (2017) 360.


18:50 THEME BUFFET DINNER & SHOW - Secret Garden (outdoor)



SESSION:
NonferrousTuePM3-R5
Stelter International Symposium (10th Intl. Symp. on Sustainable Non-ferrous Smelting & Hydro/Electrochemical Processing)
Tue. 22 Oct. 2024 / Room: Lida
Session Chairs: Junnile Romero; Student Monitors: TBA

16:45: [NonferrousTuePM311] OS
CLEAN SHORT-FLOW PREPARATION OF ELECTROLYTE FROM VANADIUM SHALE LEACHING SOLUTION BY SOLVENT EXTRACTION
Hong Ru Qu1; Yimin Zhang1; Hong Liu1; Nannan Xue1
1Wuhan University of Science and Technology, Wuhan, China
Paper ID: 92 [Abstract]

Vanadium is a valuable and rare resource widely used in chemical manufacturing, military affairs, aerospace, metallurgical industry and other fields [1], and China is rich in vanadium resources, accounting for 34% of the world's total, ranking first in the world. Vanadium mainly in the form of vanadium-titanium magnetite and vanadium-bearing coal [2]. As a new type of energy storage technology, vanadium redox flow battery has been widely studied due to its advantages of environmental protection, long-life, safety and flexible power design [3]. Vanadium electrolyte is an important component of vanadium batteries, and it is directly related to the performance and cycle life of vanadium batteries [4]. Solvent extraction is widely used for the extraction of vanadium. It can prepare electrolyte from vanadium-containing solution, eliminating the steps of vanadium precipitation, impurity removal and dissolution, which meets the requirements of energy saving and environmental protection. Based on the above, we propose a clean and short process for the preparation of vanadium electrolyte from vanadium shale leaching solution by solvent extraction.

An oxidative stripping system, with the low concentrations of hydrogen peroxide and sodium hypochlorite was introduced to facilitate vanadium recovery and further separation of impurities from the leach solution. In order to investigate the mechanism, FTIR and Raman spectroscopy were used to investigate the changes in valence bonding before and after extraction and stripping. The concentration of vanadium and other impurities in the vanadium-rich liquid was investigated by ICP to determine whether it complied with national standards(GB/T 37204-2018).

After reduction and enrichment, a high purity vanadium electrolyte with low concentration of impurities was prepared. The prepared electrolyte exhibits acceptable electrochemical and charge/discharge properties. The method saves a large amount of preparation cost than the traditional method and does not produce ammonia, nitrogen or harmful gases. The technology is economically reasonable and eco-friendly, and is expected to be applied to large-scale production and promote the development of vanadium redox flow battery and new energy.

 

References:
[1] Z.L. Yan, X.Y. Zhang, X.D. Tian, Q. Zhu, J.S. Xie, Hydrometallurgy. 139 (2013) 9-12.
[2] Y.W. Hu, Y.M. Zhang, T. Liu, H. Liu, J Clean Prod. 394 (2023) 136389.
[3] D. Lamsal, V. Sreeram, Y. Mishra, et al. Renew Sust Energ Rev, 113 (2019) 109245.
[4] Y. Liu, Q.G. Li, T. Zhang, X.S. Wu, J.W. Du, G.Q. Zhang, L. Zeng, Hydrometallurgy, 203 (2021) 105611.


17:25 POSTERS/EXHIBITION - Ballroom Foyer