期刊文献+

铀吸、放氘/氚的热力学同位素效应 被引量:6

Thermodynamic Isotope Effects of D_2 and T_2 Reaction With Uranium
下载PDF
导出
摘要 实验测定了铀吸收氘和氚单质气体的p-c-T曲线及解吸氘和氚气体的p-t曲线,获得了不同温度下吸气和解吸的平衡压,根据范德荷夫方程得到了铀吸收和解吸氘、氚的热力学参数ΔHΘ和ΔSΘ。数据显示,铀吸收氘和氚气体时,在相同温度相同原子比下,吸氘的平衡压比吸氚的平衡压低,解吸氘的平衡压也比解吸氚的平衡压低,且存在明显的滞后效应。从反应的焓变和熵变来看,铀吸、放氘/氚气体时存在较小的热力学同位素效应。 The p-c-T curves of deuterium and tritium absorption by uranium and p-t curves of desorption were measured. The balance pressure of absorption and desorption on different temperatures were got and then the thermodynamic parameters were determined according to the Van’t Hoff equation. It shows that the balance pressure of deuterium absorption is lower than that of tritium absorption on the same temperature and atom ratio. It has the same phenomena for desorption but there are obvious hysteresis effect for reversible process of absorption and desorption. There are a little thermodynamic isotope effects when deuterium and tritium absorption and desorption by uranium estimating from enthalpy and entropy values.
出处 《原子能科学技术》 EI CAS CSCD 北大核心 2010年第B09期102-105,共4页 Atomic Energy Science and Technology
基金 国家自然科学基金资助项目(50871106)
关键词 p—c—T曲线 同位素效应 uranium tritium p-c-T curve isotope effect
  • 相关文献

参考文献5

  • 1DOE-HDBK-1129-99.Tritium handing and safe storage[M].Washington D.C.:US DOE,1999.
  • 2SAYI Y S,RAMANJANEYULU P S,YADAV C S.Release of gases from uranium metal at high temperatures[J].Journal of Nuclear Materials,2008,373:75-81.
  • 3BLOCH J.The hydriding kinetics of activated uranium powder under low (near equilibrium) hydrogen pressure[J].Journal of Alloys and Compounds,2003,361:130-137.
  • 4蔚勇军,石岩,常元庆.氦对不饱和氘化铀吸氘行为的影响[J].核化学与放射化学,2005,27(1):24-26. 被引量:6
  • 5黄刚,龙兴贵,梁建华,杨本福.锆吸氘和氚的动力学同位素效应[J].无机化学学报,2009,25(8):1354-1358. 被引量:3

二级参考文献18

  • 1Li R, Sun Y, Wei Y J, et al. Fusion Eng. Des., 2006,81:859 -862.
  • 2Daigo S, Junji M, Hiroaki M, et al. J. Alloy Compd., 2004, 381:215-220.
  • 3Masanori H, Toshio O, Katsunori M, et al. Fusion Eng. Des., 2000,49-50:831 -838.
  • 4Monnin C, Ballanger A, Sciora E, et al. Nucl. Instrum. Meth. A, 2000,453:493-500.
  • 5Shinsuke Y, Daigo S, Hiroaki M, et al. J. Alloys Compd., 2004,372:129-135.
  • 6Pletnev R N, Kupryazhkin A Y, Dmitriev A V, et al. J. Struct. Chem., 2002,43(3):445-448.
  • 7LIANG Jian-Hua(梁建华),PENG Shu-Ming(彭述明),LONG Xing-Gui(龙兴贵),et al.J. Isotopes. (Tongweishu), 2003,16(3-4):151-154.
  • 8Yamanaka S, Yoshioka K, Uno M, et al. J. Alloy Compd., 1999,293-295:908-914.
  • 9HUANG Gang(黄刚),LONG Xing-Gui(龙兴贵),YANG Ben-Fu(杨本福),et al.Chinese J. Inorg. Chem.(Wuji Huaxue Xueboo), 2008,24(12):2056-2059.
  • 10Yamanaka S, Daigo S, Hiroaki M, et al. J. Alloy Compd., 2004,372:129- 135.

共引文献6

同被引文献47

  • 1李嵘,孙颖,薛炎,郭文胜.老化氚化铀的解吸等温线测定[J].核化学与放射化学,2004,26(2):114-117. 被引量:2
  • 2刘际伟,王博宇.吸附氘和注入氘对钛膜微观结构的影响[J].稀有金属材料与工程,2013,42(S2):292-295. 被引量:3
  • 3刘文科,龙兴贵,彭述明,王维笃,杨本福,曹小华,程贵钧.铀床氚残留量的测量[J].化学学报,2007,65(8):699-704. 被引量:1
  • 4王伟伟,龙兴贵.Ti-Mo合金的氢化物热解析动力学研究[J].材料科学与工程学报,2007,25(3):402-405. 被引量:7
  • 5BARTSCHER W, BOEUF A, CACIUFFO R,et al. Neutron diffraction study of 13-UDa and β- UH3 [J]. Solid State Communications, 1985, 53 (4) : 423-426.
  • 6ABRAHAM B M, FLOTOW H E. The heats of formation of uranium hydride, uranium deuteride and uranium tritide at 25 ℃ [J]. Journal of the American Chemical Society, 1955, 77(6): 1 446- 1 448.
  • 7IMOTO S, TANABE T, UTSUNOMIYA K. Separation of hydrogen isotopes with uranium hydride[J]. International Journal of Hydrogen Energy, 1982, 7(7): 597-601.
  • 8SCHNAARS D D, WU G, HAYTON T W. Re- activity of UH3 with mild oxidants[J]. Dalton Transactions, 2008, 44:6 121-6 126.
  • 9GUYADEC F L, NIN G X, BAYLE J P, et al. Pyrophoric behaviour of uranium hydride and uranium powders[J]. Journal of Nuclear Materi- als, 2010, 396(2-3): 294-302.
  • 10TOTEMEIER T. Characterization of uranium corrosion products involved in a uranium hydride pyrophoric event[J]. Journal of Nuclear Materi- als, 2000, 278(2): 301-311.

引证文献6

二级引证文献5

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部