A furnace and environmental cell for the in situ investigation of molten salt electrolysis using high-energy X-ray diffraction

Styles, M.; Rowles, Matthew; Madsen, I.; McGregor, K.; Urban, A.; Snook, G.; Scarlett, N.; Riley, D.

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Access Status

Open access

Authors

Styles, M.

Rowles, Matthew

Madsen, I.

McGregor, K.

Urban, A.

Snook, G.

Scarlett, N.

Riley, D.

Date

2012

Type

Journal Article

Metadata

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Citation

Styles, M. and Rowles, M. and Madsen, I. and McGregor, K. and Urban, A. and Snook, G. and Scarlett, N. et al. 2012. A furnace and environmental cell for the in situ investigation of molten salt electrolysis using high-energy X-ray diffraction. Journal of Synchrotron Radiation. 19 (1): pp. 39-47.

Source Title

Journal of Synchrotron Radiation

Abstract

This paper describes the design, construction and implementation of a relatively large controlled-atmosphere cell and furnace arrangement. The purpose of this equipment is to facilitate the in situ characterization of materials used in molten salt electrowinning cells, using high-energy X-ray scattering techniques such as synchrotron-based energy-dispersive X-ray diffraction. The applicability of this equipment is demonstrated by quantitative measurements of the phase composition of a model inert anode material, which were taken during an in situ study of an operational Fray-Farthing-Chen Cambridge electrowinning cell, featuring molten CaCl(2) as the electrolyte. The feasibility of adapting the cell design to investigate materials in other high-temperature environments is also discussed.