基于氢同位素研究商用钯银合金膜的渗氚性能

黄豫; 韩兴博; 姚剑; 王广华; 吴小玲; 钱楠; 吴胜伟; 刘卫

doi:10.7538/yzk.2017.51.08.1494

基于氢同位素研究商用钯银合金膜的渗氚性能

Tritium Permeation Performance with Pd/Ag Alloy Membrane Based on Hydrogen Isotope

摘要

摘要: 钯银合金膜可用于熔盐堆尾气中气态氚（HT和T₂）的分离与纯化。本文研究了厚度为80 μm的钯银合金膜在纯H₂气氛中及Ar气存在下对H₂的分离效果。结果表明，渗氢过程中氢原子在膜内部的体相扩散是控制速率的关键。Ar气存在时，在钯银合金膜工作温度为480 ℃、混合气体进气流速为100 mL/min、氢分压差为20～100 kPa的条件下，钯银合金膜对H₂气的渗透通量随氢分压差的增大而增加，随Ar气浓度的升高而减小。在氢分压差相同的条件下，纯氢的渗透通量明显高于Ar-H₂混合气的渗透通量，说明钯银合金膜受Ar气的影响分离效果变差。渗氢后的钯银合金膜表面变得光滑，有晶界形成。

Abstract: Pd/Ag alloy membrane can be used to separate and purify HT/T₂ from the offgas of TMSR. In this paper, a Pd/Ag alloy membrane with thick of 80 μm was chosen to separate H₂, which can simulate the separation of tritium. The separation effect of Pd/Ag alloy membrane in pure H₂ and H₂-Ar gas mixture was studied. The results indicate that the diffusion of atomic hydrogen through a membrane is the controlling mechanism and rate determine step of hydrogen permeation. In the condition of H₂-Ar gas mixture, the H₂ permeation flux reduces remarkably due to the influence of concentration polarization of Ar. Through the analysis of the membrane surface under SEM, the ratio of Pd in the alloy membrane increases and the grain boundary can be found, which could be inferred to the influence of H₂ permeation.

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