研究了厚度40 μm的Pd8.5Y0.19Ru(原子分数)合金膜的氢渗透性能.结果表明,在573~723 K温度范围内,氢在膜中的渗透符合Fick第一定律,氕、氘的渗透率表达式分别为φH=2.566×10-6exp(-3542.45/T) mol/m·s·Pa05和φD=1.398× 10-6exp(-3443.72/T) mol/m·s·Pa0.5,与钯钇合金相比,合金元素钌的加入降低了氕氘的渗透率和渗透分离系数.另外,CH4对膜还具有较强的毒化作用.
参考文献
| [1] | Alefeld G;Volk L J.J Hydrogen in Metals,Topics in Applied Physics[M].New York:springer-verlag,1978:135. |
| [2] | Hughes D T;Harris I R .[J].Zeitschrift Fur Physikalische Chemie Neue Bd,1979,117:185. |
| [3] | Haruyuki Fujita;Sakae Okada;Kunio Fujita et al.[J].Journal of Nuclear Science and Technology,1980,17(06):436. |
| [4] | Yasuo Suzuki;Shoji Kimura .[J].Nuclear Technology,1993,103:93. |
| [5] | Ohno M;Morisue T;Ozaki O .[J].Journal of Nuclear Science and Technology,1987,15(07):376. |
| [6] | Wileman R;Harris I .[J].Journal of the Less-Common Metals,1985,109:367. |
| [7] | 袁弘鸣,付秋枫,李银娥.钯钇合金研究[J].稀有金属材料与工程,1992(06):35-39. |
| [8] | 蒋国强;罗德礼;陆光达.氚和氚的工程技术[M].北京:国防工业出版社,2007 |
| [9] | 宋江锋 .钯钇合金膜分离器的氢同位素分离性能研究[D].中国工程物理研究院,2005. |
| [10] | Luo D L .[J].Fusion Science and Technology,2002,41:1142. |
| [11] | Unemoto A;Kaimai A;Otake T et al.Hydrogen Permeability of Palladium Alloy Membrane at High Temperatures in the Impurity Gases Co-existing Atmospheres.[WHEC 16/13-16][R].Lyon,France,2006. |
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