色谱2017,Vol.35Issue(7):766-771,6.DOI:10.3724/SP.J.1123.2017.02028
MnCl2改性γ-Al2O3毛细管填充柱气相色谱分析氢同位素
Analysis of hydrogen isotopes by gas chromatography using a MnCl2 coated γ-Al2O3 capillary packed column
摘要
Abstract
The conventional packed column gas chromatographic analysis of hydrogen isotopes has low column efficiency,broad peak and long retention time.In this work,a γ-Al2O3 with MnCl2 coated capillary packed column was tested at cryogenic temperature.The systematic column efficiency analysis and the hydrogen isotopes analytical technique research had been carried out.The results showed that,the γ-Al2O3 with MnCl2 coating could greatly improve the surface degree of order,pore structure and adsorption properties.Also the o-H2 peak and p-H2 peak were eluted in a single area.The γ-Al2O3 with MnCl2 coating was packed into a 0.53 mm inner diameter and 1.0 m long fused silica capillary column.It had a good linear relationship used this column with thermal conductivity detector (TCD) to detect the volume concentrations of hydrogen isotopes from 1 to 10 mL/L,and the relative error was less than 5% for low concentration sample testing.For H2,HD and D2,the retention times can be shortened to 39,46 and 60 s,respectively.The limits of detection were reduced to 0.046,0.067 and 0.072 mL/L,respectively.Compared with conventional packed column,capillary packed column had sharper peak form,higher separation degree of adjacent components,shorter retention time and lower detection limits.The above results indicate that the capillary packed column with TCD detector can be used for fast detection of low concentration of hydrogen isotopes and their online analysis.关键词
气相色谱/γ-Al2O3填充柱/氢同位素/氘氚燃料循环Key words
gas chromatography (GC)/γ-Al2O3 packed column/hydrogen isotope/deuterium tritium fuel cycle分类
化学化工引用本文复制引用
陈平,付小龙,胡鹏,肖成建,任兴碧,夏修龙,王和义..MnCl2改性γ-Al2O3毛细管填充柱气相色谱分析氢同位素[J].色谱,2017,35(7):766-771,6.基金项目
国家磁约束聚变能研究专项资助项目(2014GB111001,2014GB111004).National Magnetic Confinement Fusion Science Program (Nos.2014GB111001,2014GB111004). (2014GB111001,2014GB111004)
