Rapid Quenching of Molten Salts as an Approach for the Coordination Characterization of Corrosion Products

Juho Lehmusto; J. Matthew Kurley III; Ercan Cakmak; James R. Keiser; Daniel Lindberg; Markus Engblom; Bruce A. Pint; Stephen S. Raiman

doi:https://doi.org/10.1080/00295639.2023.2204175

Rapid Quenching of Molten Salts as an Approach for the Coordination Characterization of Corrosion Products

Juho Lehmusto^*, J. Matthew Kurley III, Ercan Cakmak, James R. Keiser, Daniel Lindberg, Markus Engblom, Bruce A. Pint, Stephen S. Raiman

^*Corresponding author for this work

Laboratory of Molecular Science and Engineering

Research output: Contribution to journal › Article › Scientific › peer-review

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Abstract

A new apparatus was built to rapidly cool molten salts in liquid argon to prevent contamination during quenching and enable new insight into the structure in the liquid state. To test the applicability of the apparatus, several industrially relevant chloride salt compositions were first melted, rapidly solidified, and then characterized. The design proved applicable for the rapid quenching of molten salt. Furthermore, the structure of the apparatus prevented exposure of the rapidly quenched salt to impurities (humidity, oxygen, etc.). X-ray diffraction of salt specimens cooled with and without liquid argon showed differences including a structure further from the expected stoichiometric equilibrium with rapid cooling. Of particular interest is the chemical state of metallic impurities, and this may be probed using electron paramagnetic resonance.

Original language	English
Number of pages	8
Journal	Nuclear Science and Engineering
DOIs	https://doi.org/10.1080/00295639.2023.2204175
Publication status	Published - 15 May 2023
MoE publication type	A1 Journal article-refereed

Keywords

Molten chlorides
Solidification process
High-temperature corrosion
Crystal structure

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https://doi.org/10.1080/00295639.2023.2204175Licence: CC BY

RCR of Molten Salts as an Approach for the Coordination Characterization of Corrosion Products_Lehmusto_2023Final published version, 5.71 MBLicence: CC BY

https://urn.fi/URN:NBN:fi-fe2023053049467

Initiation and propagation of high-temperature corrosion reactions in complex oxygen-containing environments
Lehmusto, J.
Research Council of Finland
01/09/22 → 31/08/27
Project: Research Council of Finland/Other Research Councils

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title = "Rapid Quenching of Molten Salts as an Approach for the Coordination Characterization of Corrosion Products",

abstract = "A new apparatus was built to rapidly cool molten salts in liquid argon to prevent contamination during quenching and enable new insight into the structure in the liquid state. To test the applicability of the apparatus, several industrially relevant chloride salt compositions were first melted, rapidly solidified, and then characterized. The design proved applicable for the rapid quenching of molten salt. Furthermore, the structure of the apparatus prevented exposure of the rapidly quenched salt to impurities (humidity, oxygen, etc.). X-ray diffraction of salt specimens cooled with and without liquid argon showed differences including a structure further from the expected stoichiometric equilibrium with rapid cooling. Of particular interest is the chemical state of metallic impurities, and this may be probed using electron paramagnetic resonance.",

keywords = "Molten chlorides, Solidification process, High-temperature corrosion, Crystal structure",

author = "Juho Lehmusto and {Kurley III}, {J. Matthew} and Ercan Cakmak and Keiser, {James R.} and Daniel Lindberg and Markus Engblom and Pint, {Bruce A.} and Raiman, {Stephen S.}",

year = "2023",

month = may,

day = "15",

doi = "https://doi.org/10.1080/00295639.2023.2204175",

language = "English",

journal = "Nuclear Science and Engineering",

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T1 - Rapid Quenching of Molten Salts as an Approach for the Coordination Characterization of Corrosion Products

AU - Lehmusto, Juho

AU - Kurley III, J. Matthew

AU - Cakmak, Ercan

AU - Keiser, James R.

AU - Lindberg, Daniel

AU - Engblom, Markus

AU - Pint, Bruce A.

AU - Raiman, Stephen S.

PY - 2023/5/15

Y1 - 2023/5/15

N2 - A new apparatus was built to rapidly cool molten salts in liquid argon to prevent contamination during quenching and enable new insight into the structure in the liquid state. To test the applicability of the apparatus, several industrially relevant chloride salt compositions were first melted, rapidly solidified, and then characterized. The design proved applicable for the rapid quenching of molten salt. Furthermore, the structure of the apparatus prevented exposure of the rapidly quenched salt to impurities (humidity, oxygen, etc.). X-ray diffraction of salt specimens cooled with and without liquid argon showed differences including a structure further from the expected stoichiometric equilibrium with rapid cooling. Of particular interest is the chemical state of metallic impurities, and this may be probed using electron paramagnetic resonance.

AB - A new apparatus was built to rapidly cool molten salts in liquid argon to prevent contamination during quenching and enable new insight into the structure in the liquid state. To test the applicability of the apparatus, several industrially relevant chloride salt compositions were first melted, rapidly solidified, and then characterized. The design proved applicable for the rapid quenching of molten salt. Furthermore, the structure of the apparatus prevented exposure of the rapidly quenched salt to impurities (humidity, oxygen, etc.). X-ray diffraction of salt specimens cooled with and without liquid argon showed differences including a structure further from the expected stoichiometric equilibrium with rapid cooling. Of particular interest is the chemical state of metallic impurities, and this may be probed using electron paramagnetic resonance.

KW - Molten chlorides

KW - Solidification process

KW - High-temperature corrosion

KW - Crystal structure

U2 - https://doi.org/10.1080/00295639.2023.2204175

DO - https://doi.org/10.1080/00295639.2023.2204175

M3 - Article

SN - 0029-5639

JO - Nuclear Science and Engineering

JF - Nuclear Science and Engineering

ER -

Rapid Quenching of Molten Salts as an Approach for the Coordination Characterization of Corrosion Products

Abstract

Keywords

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Initiation and propagation of high-temperature corrosion reactions in complex oxygen-containing environments

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