Molten Salt Electrochemical Reactors Outside of a Glovebox

Ivy Wu; Haley Hoover; Tami Olushina; Bob Bell; Kerry Rippy

doi:10.2172/3017155

Molten Salt Electrochemical Reactors Outside of a Glovebox

Ivy Wu
, Haley Hoover
, Tami Olushina
, Bob Bell
, Kerry Rippy

National Laboratory of the Rockies

Research output: NLR › Poster

Abstract

Molten salt electrochemical reduction (MSER) offers an electrified method for the reduction, refining, and recycling of metals such as iron and metallurgical grade silicon at high efficiency and lower temperatures than traditional methods, which use temperatures >1000C and carbon-based reductants. However, salts appropriate for MSER are moisture and air sensitive, necessitating air-free methods of processing and testing which is often acomplished with a glovebox. Glovebox operations are cumbersome and difficult to troubleshoot reactor issues. We have developed a robust method of testing chloride and carbonate salts in molten salt reactors outside of a glovebox for silicon and carbon production and steel carburization. We highlight a practical guide for glovebox-free testing of molten salt electrochemical reactors to reduce the barriers to performing this type of work. Our aim is to enable other research groups to step into this field with simple and repeatable reactor configurations.

Original language	American English
Publisher	National Renewable Energy Laboratory (NREL)
Number of pages	1
DOIs	https://doi.org/10.2172/3017155
State	Published - 2025

Publication series

Name	Presented at the Molten Salt Electrochemistry Symposium, 30-31 July 2025, Provo, Utah

NLR Publication Number

NLR/PO-5500-95047

Keywords

air sensitive
electrochemistry
metals reduction
molten salt

Access to Document

10.2172/3017155

https://www.nlr.gov/docs/fy26osti/95047.pdf

Cite this

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title = "Molten Salt Electrochemical Reactors Outside of a Glovebox",

abstract = "Molten salt electrochemical reduction (MSER) offers an electrified method for the reduction, refining, and recycling of metals such as iron and metallurgical grade silicon at high efficiency and lower temperatures than traditional methods, which use temperatures >1000C and carbon-based reductants. However, salts appropriate for MSER are moisture and air sensitive, necessitating air-free methods of processing and testing which is often acomplished with a glovebox. Glovebox operations are cumbersome and difficult to troubleshoot reactor issues. We have developed a robust method of testing chloride and carbonate salts in molten salt reactors outside of a glovebox for silicon and carbon production and steel carburization. We highlight a practical guide for glovebox-free testing of molten salt electrochemical reactors to reduce the barriers to performing this type of work. Our aim is to enable other research groups to step into this field with simple and repeatable reactor configurations.",

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author = "Ivy Wu and Haley Hoover and Tami Olushina and Bob Bell and Kerry Rippy",

year = "2025",

doi = "10.2172/3017155",

language = "American English",

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T1 - Molten Salt Electrochemical Reactors Outside of a Glovebox

AU - Wu, Ivy

AU - Hoover, Haley

AU - Olushina, Tami

AU - Bell, Bob

AU - Rippy, Kerry

PY - 2025

Y1 - 2025

N2 - Molten salt electrochemical reduction (MSER) offers an electrified method for the reduction, refining, and recycling of metals such as iron and metallurgical grade silicon at high efficiency and lower temperatures than traditional methods, which use temperatures >1000C and carbon-based reductants. However, salts appropriate for MSER are moisture and air sensitive, necessitating air-free methods of processing and testing which is often acomplished with a glovebox. Glovebox operations are cumbersome and difficult to troubleshoot reactor issues. We have developed a robust method of testing chloride and carbonate salts in molten salt reactors outside of a glovebox for silicon and carbon production and steel carburization. We highlight a practical guide for glovebox-free testing of molten salt electrochemical reactors to reduce the barriers to performing this type of work. Our aim is to enable other research groups to step into this field with simple and repeatable reactor configurations.

AB - Molten salt electrochemical reduction (MSER) offers an electrified method for the reduction, refining, and recycling of metals such as iron and metallurgical grade silicon at high efficiency and lower temperatures than traditional methods, which use temperatures >1000C and carbon-based reductants. However, salts appropriate for MSER are moisture and air sensitive, necessitating air-free methods of processing and testing which is often acomplished with a glovebox. Glovebox operations are cumbersome and difficult to troubleshoot reactor issues. We have developed a robust method of testing chloride and carbonate salts in molten salt reactors outside of a glovebox for silicon and carbon production and steel carburization. We highlight a practical guide for glovebox-free testing of molten salt electrochemical reactors to reduce the barriers to performing this type of work. Our aim is to enable other research groups to step into this field with simple and repeatable reactor configurations.

KW - air sensitive

KW - electrochemistry

KW - metals reduction

KW - molten salt

U2 - 10.2172/3017155

DO - 10.2172/3017155

M3 - Poster

T3 - Presented at the Molten Salt Electrochemistry Symposium, 30-31 July 2025, Provo, Utah

PB - National Renewable Energy Laboratory (NREL)

ER -

Molten Salt Electrochemical Reactors Outside of a Glovebox

Abstract

Publication series

NLR Publication Number

Keywords

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