...,在加入内标物正十七烷后,最后进行气相色 4 第2章实验谱分析,其中色谱检测器采用火焰离子检测器(Flame Ionization Detector,FID)。
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氢火焰离子检测器 FID
氢火焰离子化检测器 FID ; flame ionization ditector ; hydrogen flame ionization detector ; flame ionization detector
火焰离子化检测器 FID ; flame ionization detector ; Flame ionized detector
火焰热离子检测器 FTD ; FTID Flame Thermionic Detector
双火焰离子化检测器 cual-flame ionization detector ; flame ionization detector
火焰热离子化检测器 FTD ; flame thermionic detector
碱火焰离子化检测器 AFID
本文针对带工作站的GC介绍了气相色谱仪氢火焰离子化检测器检测限校准的不确定度评定新方法。
As to GC with a workstation, this paper introduced a new method used to evaluate the uncertainty of calibration for detection limit by flame ionization detector.
选用SE54型毛细管柱、氢火焰离子化检测器,以三氯代苯为内标物,采用较低的柱温,使内标物与TDI更好地分离,减少了副反应的发生。
The TDI and internal standard chemicals can be separated better and the side reaction is reduced at lower column temperature by use of SE54 capillary column and FID detector.
试验采用氢火焰离子化检测器、101硅烷化白色载体和SE—30固定相等最佳条件,获得了较为满意的结果。
Under the best conditions by means of hydrogen flame ionisation detector, 101 white silylation carrier a and se-30 anchored phase edc., the good results have been obtained.
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