Details

Autor(en) / Beteiligte

• Pawelko, R.J.
• Shimada, M.
• Katayama, K.
• Fukada, S.
• Humrickhouse, P.W.
• Terai, T.

Titel

Low tritium partial pressure permeation system for mass transport measurement in lead lithium eutectic

Ist Teil von

• Fusion engineering and design, 2016-01, Vol.102 (C), p.8-13

Ort / Verlag

United States: Elsevier B.V

Erscheinungsjahr

2016

Quelle

Access via ScienceDirect (Elsevier)

Beschreibungen/Notizen

• •New low tritium partial pressure permeation system for mass transfer measurements.•Replaceable permeation cell for studies on metal, molten metal, and salt samples.•LLE composition: 85.04mol% Pb and 14.90mol% Li with traces of Bi, Sn, and Zn.•Tritium permeation has been measured in α-Fe and liquid lead lithium eutectic.•Permeation data spans transition between diffusion and surface limited regimes. This paper describes a new experimental system designed to investigate tritium mass transfer properties in materials important to fusion technology. Experimental activities were carried out at the Safety and Tritium Applied Research (STAR) facility located at the Idaho National Laboratory (INL). The tritium permeation measurement system was developed as part of the Japan/US TITAN collaboration to investigate tritium mass transfer properties in liquid lead lithium eutectic (LLE) alloy. The experimental system is configured to measure tritium mass transfer properties at low tritium partial pressures. Initial tritium permeation scoping tests were conducted on a 1mm thick α-Fe plate to determine operating parameters and to validate the experimental technique. A second series of permeation tests was then conducted with the α-Fe plate covered with an approximately 8.5mm layer of liquid lead lithium eutectic alloy (α-Fe/LLE). We present preliminary tritium permeation data for α-Fe and α-Fe/LLE at temperatures between 400 and 600°C and at tritium partial pressures between 1.7E−03 and 2.5Pa in helium. Preliminary results for the α-Fe plate and α-Fe/LLE indicate that the data spans a transition region between the diffusion-limited regime and the surface-limited regime. Additional data is required to determine the existence and range of a surface-limited regime.