Your search keyword '"Matthias Rizzi"' showing total 2 results

1. Use of the transpiration method to study polonium evaporation from liquid lead-bismuth eutectic at high temperature

Author

Joris Van den Bosch, Kris Rosseel, Borja Gonzalez Prieto, Jörg Neuhausen, Alexander Aerts, Johan A. Martens, J. Lim, Alessandro Marino, and Matthias Rizzi

Subjects

Chemistry, Lead-bismuth eutectic, Radiochemistry, Metallurgy, Alloy, Evaporation, engineering, chemistry.chemical_element, Physical and Theoretical Chemistry, engineering.material, Transpiration, Polonium

Abstract

Qualitative and quantitative understanding of Po volatilization under different conditions is of key importance for safety assessments of lead-bismuth eutectic (LBE) based nuclear reactors, spallation targets and accelerator driven systems. In this work we explore the possibilities of the transpiration method in combination with simple models to study the equilibrium and kinetics of Po evaporation from highly diluted solutions in lead-bismuth eutectic between 600 and 1000 ℃ in Ar/5% H2 and Ar. On the basis of evaporation experiments at various carrier gas flow rates, we identified the conditions of vapor saturation allowing the determination of equilibrium constants. From the limiting behavior at high flow rates, values for the maximal evaporation rate of Po from LBE were estimated. Measurements of evaporation as a function of time were consistent with the assumption that polonium dissolved in LBE obeys Henry's law. A theoretical analysis furthermore suggested that diffusion of polonium in LBE was not a rate limiting factor for evaporation under vapor saturation conditions. Newly determined values for the Henry constant of Po in LBE between 600 and 1000 ℃ were consistent with previously derived correlations.

Published

2014

2. Polonium evaporation from dilute liquid metal solutions

Author

Thierry Stora, Borja Gonzalez Prieto, T.M. Mendonca, Matthias Rizzi, Jörg Neuhausen, Alexander Aerts, Dorothea Schumann, Andreas Türler, and Robert Eichler

Subjects

Nuclear and High Energy Physics, Liquid metal, Vapor pressure, Analytical chemistry, Evaporation, chemistry.chemical_element, Atmospheric temperature range, Nuclear Energy and Engineering, chemistry, Neutron source, General Materials Science, Spallation, Nuclear chemistry, Polonium, Eutectic system

Abstract

The evaporation behavior of polonium as one of the most hazardous radionuclides produced in spallation based neutron sources with liquid lead–bismuth targets has been quantified in this study. The normalized apparent vapor pressure, i.e. the Henry constant of polonium over liquid lead–bismuth eutectic was determined in the temperature range relevant for operation of such targets, i.e. 164–500 °C. For comparison and better fundamental understanding, the Henry constant of polonium over pure liquid bismuth was determined in a temperature range of 300–500 °C. The Henry constants of polonium in this temperature range were found to be orders of magnitude higher than expected from earlier studies at higher temperatures. Possible mechanisms responsible for this unexpected behavior are discussed.

Published

2014