최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Resources recycling = 자원리싸이클링, v.31 no.2, 2022년, pp.20 - 32
김선경 (한국지질자원연구원 자원활용연구본부 자원소재연구센터) , 권숙철 (한국지질자원연구원 자원활용연구본부 자원소재연구센터) , 김희서 (한국지질자원연구원 자원활용연구본부 자원소재연구센터) , 서용재 (한국지질자원연구원 자원활용연구본부 자원소재연구센터) , 유정현 (한국지질자원연구원 자원활용연구본부 자원소재연구센터) , 장한권 (한국지질자원연구원 자원활용연구본부 자원소재연구센터) , 전호석 (과학기술연합대학원대학교 자원순환공학전공) , 박인수 (한국지질자원연구원 자원활용연구본부 자원소재연구센터)
This study implemented a chelating agent (Ethylenediaminetetraacetic acid, EDTA) in purification to obtain high-purity vanadium pentoxide (V2O5) for use in VRFB (Vanadium Redox Flow Battery). V2O5 (powder) was produced through the precipitation recovery of ammonium metavanadate (NH4VO3) from a vanad...
Park, W. S., 2020 : Energy storage technology using Vanadium redox flow battery (VRFB), KEPRI NEWS, 292, pp.12-15.
Kim, H. T., 2017 : Trends of Membranes for Vanadium Redox Flow Batteries, KIC News, 20(3), pp.28-35.
Skyllas-Kazacos, M., Cao, L., Kazacos, M., et al., 2016 : Vanadium E lectrolyte Studies for the Vanadium Redox Battery-A Review, ChemSusChem, 9, pp.1521-1543.
Choi, C., Kim, S., Kim, R., et al., 2017 : A review of vanadium electrolytes for vanadium redox flow batteries, Renewable and Sustainable Energy Reviews, 69, pp.263-274.
Mongird, K., Fotedar, V., Viswanathan, V., et al., 2019 : Energy Storage Technology and Cost Characterization Report, U.S. Department of Energy.
Heo, J., Han, J., Kim, S., et al., 2019 : Catalytic production of impurity-free V 3.5+ electrolyte for vanadium redox flow batteries, Nature Communications, 10, pp.4412.
Noack, J., Wietschel, L., Roznyatovskaya, N., et al., 2016 : Technoeconomic modeling and analysis of redox flow battery systems, Energies, 9, pp.627.
Dassisti, M., Cozzolino, G., Chimienti, M., et al., 2016 : Sustainability of vanadium redox-flow batteries: Benchmarking electrolyte synthesis procedures, International Journal of Hydrogen Energy, 41, pp.16477-16488.
Zhu, Q., Fan, C., Mu, W., et al., 2019 : System and method for purifying vanadium pentoxide, CA2973511C.
Park, W. J., 2019 : Survey on actual conditions of ceramic raw materials and establishment of policies for fostering industries, Chemical Market Research Inc.(CMRI), chapter 3, section 18, pp.255.
Vitolo, S., Seggiani, M., Filippi, S., et al., 2000 : Recovery of vanadium from heavy oil and Orimulsion fly ashes, Hydrometallurgy, 57, pp.141-149.
He, D., Feng, Q., Zhang, G., et al., 2007 : An environmentally-friendly technology of vanadium extraction from stone coal, Minerals Engineering, 20, pp.1184-1186.
Nguyen, T.H., Lee, M.S., 2013 : Separation of molybdenum and vanadium from acid solutions by ion exchange, Hydrometallurgy, 136, pp.65-70.
Nguyen, T.H., Lee, M.S., 2014 : Recovery of molybdenum and vanadium with high purity from sulfuric acid leach solution of spent hydrodesulfurization catalysts by ion exchange, Hydrometallurgy, 147-148, pp.142-147.
Barik, S.P., Park, K.H., Nam, C.W., 2014 : Process development for recovery of vanadium and nickel from an industrial solid waste by a leaching-solvent extraction technique, Journal of Environmental Management, 146, pp.22-28.
Noori, M., Rashchi, F., Babakhani, A., et al., 2014 : Selective recovery and separation of nickel and vanadium in sulfate media using mixtures of D2EHPA and Cyanex 272, Separation and Purification Technology, 136, pp.265-273.
Jiang, D., Zhang, H., Xu, H., et al., 2017 : Chlorination and purification of vanadium pentoxide with anhydrous aluminum chloride, Journal of Alloys and Compounds, 709, 505-510.
Fan, C., Xu, J., Yang, H., et al., 2020 : High-purity, low-Cl V 2 O 5 via the gaseous hydrolysis of VOCl 3 in a fluidized bed, Particuology, 49, pp.9-15.
Podval'naya, N.V., Volkov, V.L., 2006 : Composition and formation kinetics of sodium polyvanadates in vanadium (IV, V) solutions. Russian Journal of Inorganic Chemistry, 51(3), pp.404-408.
Zhang, Y. M., Bao, S. X., Liu, T., et al., 2011 : The technology of extracting vanadium from stone coal in China: History, current status and future prospects, Hydrometallurgy, 109, pp.116-124.
Cui, X., Zhang, G., Chen, X., et al., 2019 : Purification of V 2 O 5 a nd i ts a pplication in a ll-vanadium r edox flow batteries, Materials Research Express, 6, 085552.
Wang, M., Woo, K. D., Kim, I.Y., et al., 2007 : Separation of Fe 3+ during hydrolysis of TiO 2+ by addition of EDTA, Hydrometallurgy, 89, pp.319-322.
Xiong, X., Wang, Z., Wu, F., et al., 2013 : Preparation of TiO 2 from ilmenite using sulfuric acid decomposition of the titania residue combined with separation of Fe 3+ with EDTA during hydrolysis, Advanced Powder Technology, 24, pp.60-67
Zhang, Y., Dreisinger, D., Zhang, T. A., et al., 2019 : Preparation of highly pure vanadyl sulfate electrolyte from vanadium slag leach solution with the complexing effect of EDTA on Fe(III), Hydrometallurgy, 188, pp.54-63.
Park, I.-S., Kwon, S., Hong, H. J., et al., 2020 : Method for manufacturing vanadium electrolyte, The vanadium electrolyte manufactured by the same and cell using the same, 10-2235379.
Kim, S. K., Kwon, S., Hong, H. J., et al., 2021 : Study on the Manufacture of High-purity Vanadium Pentoxide and Electrolyte for a Vanadium Redox Flow Batter, Journal of The Korean Society of Mineral and Energy Resources Engineers (KSMER), 58(1), pp.44-53.
Yoon, H. S., Heo, S. J., Kim, C. J., et al., 2020 : Precipitation Characteristics of Ammonium Metavanadate from Sodium Vanadate Solution by Addition of Ammonium Chloride, J. of Korean Inst. of Resources Recycling, 29(5), pp.28-37.
Yoon, H. S., Chae, S., Kim, C. J., et al., 2019 : Precipitation Behavior of Ammonium Vanadate from Solution Containing Vanadium, J. of Korean Inst. of Resources Recycling, 28(5), pp.42-50.
Hart, J. R., Ethylenediaminetetraacetic Acid and Related Chelating Agents, Ullmann's Encyclopedia of Industrial Chemistry. Weinheim: Wiley-VCH
Willett, A. I., Rittmann, B.E., 2003 : Slow complexation kinetics for ferric iron and EDTA complexes make EDTA non-biodegradable, Biodegradation, 14, pp.105-121
Zhang, Y., Zheng, J., Zhao, Y., et al., 2016 : Fabrication of V 2 O 5 with various morphologies for high-performance electrochemical capacitor, Applied Surface Science, 377, pp.385-393.
Przesniak-Welenc, M., Nadolska, M., Koscielska, M., et al., 2019 : Tailoring the Size and Shape-New Path for Ammonium Metavanadate Synthesis, Materials, 12, pp.3446.
Nourizadeh, H., Noori, M., Mirazimi, M., et al., 2021 : Characterization and Ethanol-Sensing Behavior of Nanostructured Vanadium Pentoxide Recovered from Oil Fly Ash, International Journal of Environmental Research, 15, pp.985-999.
Roznyatovskaya, N., Herr, T., Kuttinger, M., et al., 2016 : Detection of capacity imbalance in vanadium electrolyte and its electrochemical regeneration for all-vanadium redox-flow batteries, Journal of Power Sources, 302, pp.79-83.
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
오픈액세스 학술지에 출판된 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.