Application and testing of a triple bubbler sensor in molten salts

A.N. Williams; A. Shigrekar; G.G. Galbreth; J. Sanders

Nuclear Engineering and Technology (Jul 2020)

Application and testing of a triple bubbler sensor in molten salts

A.N. Williams,
A. Shigrekar,
G.G. Galbreth,
J. Sanders

Affiliations

A.N. Williams: Idaho National Laboratory, 2525 Fremont Ave, Idaho Falls, ID, 83402, USA; Corresponding author.
A. Shigrekar: University of Idaho, 1776 Science Center Dr., Idaho Falls, ID, 83402, USA
G.G. Galbreth: Idaho National Laboratory, 2525 Fremont Ave, Idaho Falls, ID, 83402, USA
J. Sanders: Idaho National Laboratory, 2525 Fremont Ave, Idaho Falls, ID, 83402, USA

Journal volume & issue: Vol. 52, no. 7
pp. 1452 – 1461

Abstract

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A triple bubbler sensor was tested in LiCl–KCl molten salt from 450 to 525 °C in a transparent furnace to validate thermal-expansion corrections and provide additional molten salt data sets for calibration and validation of the sensor. In addition to these tests, a model was identified and further developed to accurately determine the density, surface tension, and depth from the measured bubble pressures. A unique feature of the model is that calibration constants can be estimated using independent depth measurements, which allow calibration and validation of the sensor in an electrorefiner where the salt density and surface tension are largely unknown. This model and approach were tested using the current and previous triple bubbler data sets, and results indicate that accuracies are as high as 0.03%, 4.6%, and 0.15% for density, surface tension, and depth, respectively.

Published in Nuclear Engineering and Technology

ISSN: 1738-5733 (Print)
Publisher: Elsevier
Country of publisher: Korea, Republic of
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Nuclear engineering. Atomic power
Website: http://www.journals.elsevier.com/nuclear-engineering-and-technology

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