You are here:
Publication details
LIQUID SODIUM AS A COOLING MEDIUM: DETERMINATION OF CARBON CONTENT
Authors | |
---|---|
Year of publication | 2008 |
Type | Conference abstract |
MU Faculty or unit | |
Citation | |
Description | This work is focused on a study of interaction of liquid sodium with CO2 by means of laser ablation with inductively coupled plasma optical emission spectrometry (LAICPOES). Liquid sodium is examined as a cooling medium for the GENERATION IV of nuclear reactors. Carbon dioxide should displace water or water vapor in the Energy Conversion Systems of NPPs with Sodium-cooled Fast Reactors. For purpose of the carbon dioxide molten sodium interactions study an apparatus was designed in which sodium melting occurs under CO2 atmosphere. Molten sodium is expected to interact with CO2 in several ways that might comprise chemical reactions, absorption and/or dissolution. To find an extent of these interactions, a method for determination of carbon in sodium is being developed. After cooling down, sodium is transferred into an ablation cell and a specimen material is released by focused laser beam ablation. Resulting vapour and aerosol are transported with carrier gas into the ICP excitation source and carbon atomic emission in UV-Vis spectral region is measured by means of OES. Analysis would give reply to the question about total carbon content in sodium regardless of carbon chemical form and nature of its incorporation. Authors gratefully acknowledge the Ministry of Industry and Trade of the Czech Republic for supporting the project 2A-1TP1/067; T.V. and V.K. acknowledge Ministry of Education, Youth and Sports of the Czech Republic for support of the projects MSM0021622411 and MSM0021622410. |
Related projects: |