Electroanalytical and Electrodeposited Simulation of Ce3+ in Molten LiCl-KCl

It is necessary to understand electrochemical phenomena to optimize the operation conditions and design an electrolytic cell system suitable for pyroprocessing. To gain some vital parameters for electrolysis, simulation is an attractive way to get access to the electrochemical principle. A commercia...

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Veröffentlicht in:	Journal of the Electrochemical Society 2019-11, Vol.166 (15), p.D868-D874
Hauptverfasser:	Zhang, Meng, Wang, Jingyang, Cai, Yubin, Jiao, Caishan, Adede, Simon Ochieng, Zhu, Chunming
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Sprache:	eng
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container_end_page	D874
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container_start_page	D868
container_title	Journal of the Electrochemical Society
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creator	Zhang, Meng Wang, Jingyang Cai, Yubin Jiao, Caishan Adede, Simon Ochieng Zhu, Chunming
description	It is necessary to understand electrochemical phenomena to optimize the operation conditions and design an electrolytic cell system suitable for pyroprocessing. To gain some vital parameters for electrolysis, simulation is an attractive way to get access to the electrochemical principle. A commercial finite element simulation software COMSOL Multiphisics is used to simulate cyclic voltammetry(CV), chronoamperometry(CA), square wave voltammetry(SWV) and electrodeposited behaviors of CeCl3 in the LiCl-KCl molten salt. In this work, a comparison of simulation and our experimental data has been utilized to study the electrochemical behaviors of CeCl3 via CV, CA and SWV. The oxidation-reduction potential of the reaction and the number of transfer electrons were obtained. The electrodeposited behaviors, which consist of the distribution of the current density and potential, concentration distribution of the Ce3+, electrodeposited layer distribution were investigated. The influence of temperature, current density and electrodeposited layer density on the electrodeposition is also taken into consideration.
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The electrodeposited behaviors, which consist of the distribution of the current density and potential, concentration distribution of the Ce3+, electrodeposited layer distribution were investigated. 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title	Electroanalytical and Electrodeposited Simulation of Ce3+ in Molten LiCl-KCl
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