氢火焰离子化检测器

该法以萘为内标物，在DB-1色谱柱上进行分离，氢火焰离子化检测器。

The samples were well separated on a DB-1 capillary column and detected with FID as a detector .

采用丙酮作为溶剂，选用19091N-213型毛细管色谱柱（30m×0.32mmi.d.，0.5μm）和氢火焰离子化检测器，以毛细管气相色谱法测定鞋和箱包用胶粘剂中正己烷含量。

Acetone was used as solvent , 19091N-213 capillary column ( 30 m × 0.32 mm i.d. , 0.5 μ m ) and FID detector were selected , n-hexane in adhesives for footware and base and bag was determined by capillary gas chromatography .

检测器：氢火焰离子化检测器（FID）；

Detector : flame ionization detector ( FID );

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 .

针对啤酒酒中不同的挥发性物质可选择PEG柱和氢火焰离子化检测器（FID）法进行检测；

In view of different volatile substance in beer , PEG column and FID ( hydrogen flame ionization detector ) were selected in the measurement .

用配有氢火焰离子化检测器（FID）的气相色谱仪直接测定水中多种微量有机胺。

Some kinds of micro organic amine in water were direct determined using gas chromatograph with hydrogen flame ionization detector ( FID ) .

为使其改进，采用薄层色谱（TLC）与氢火焰离子化检测器（FID）相结合的新方法。

To avoid them , a new alternate method which combines thin layer chromatography ( TLC ) with hydrogen flame ionization detector ( FID ) is adopted .

用气相色谱的氢火焰离子化检测器及熔融石英毛细管柱测定在煤油体系中痕量的DBP（磷酸二丁酯）和MBP（磷酸一丁酯）。

Trace amount of DBP and MBP in TBP-kerosene system is determined by gas chromatography with FID ( Flame Ionization Detector ) and fused silica capillary column .

报道了用三氧化二铝毛细柱与氢火焰离子化检测器联用的气相色谱法，定性定量分析了N，N-二甲基羟胺水溶液辐解产生的气态烃类。

This paper reports the qualitative and quantitative analysis of light hydrocarbons produced by radiation degradation of N , N-dimethyl hydroxylamine . These analyses were performed on the gas chromatograph , in which porous layer open tubular column coated with aluminum oxide and flame-ionization detector are used .

乙酸丁酯稀释丙烯酸树脂后，用气相色谱法使丙烯酸树脂中的各种残余单体得到较好分离，再采用氢火焰离子化检测器（FID）定量测定。

Acrylic resin is diluted in ethyl acetate and the remnant monomer is well separated from it by gas chromatography and is quantificationally measured by hydrogen flame ionization detector ( FID ) .

采用色谱柱为脂肪酸型色谱柱DB-23，氢火焰离子化检测器。

A fat acid testing column DB-23 with FID was used to determine .

采用气相色谱法，在SE-54石英毛细管色谱柱上，以氢火焰离子化检测器，分离测定了反应液中的3-氨基丙醇。

A method for determining 3-Amino-1-Propanal in the reaction system by Gas Chromatography with capillary column ( SE-54 ) and FID detector was established .

选用OV-1毛细管色谱柱及氢火焰离子化检测器（FID），采用二阶程序升温，建立了测定碳酸二甲酯（DMC）含量的气相色谱法。

A method for the determination of dimethyl carbonate ( DMC ) by GC was set up using OV-1 capillary column , hydrogen flame ionization detector ( FID ) and two step temperature programming .

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 .

采用气相色谱-氢火焰离子化检测器-硫化学发光检测器（GC-FID-SCD）联用技术，建立了催化柴油中各种硫化物类型分布的分析方法。

A method for separation and determination of sulfur compounds in catalytic diesel oil by gas chromatography-flame ionization detector-sulfur chemiluminescence detector ( GC-FID-SCD ) was established .

本文采用气相色谱法，使用QF1色谱柱和氢火焰离子化检测器，以正十八烷为内标物，对10%高渗敌敌畏乳油进行色谱分离和测定。

A method is introduced for the determination of 10 % high penetration dichlorvos EC by gas chromatography on QF 1 chromatographic column and flame ionization detector using n-octadecane as internal standard .

采用毛细管气相色谱-氢火焰离子化检测器（CGC-FID）和气相色谱-质谱法（GC/MS）分析了热裂解汽油C9馏分的组成。

The constituents of C_9 fraction of pyrolysis gasoline were analyzed by gas chromatography ( GC ) with flame ionization detector ( FID ) and gas chromatography / mass spectrometry ( GC / MS ) . A 100 m × 0.25 mm i.d.

方法：采用CBP1-M25-0.25石英毛细管柱，检测器为氢火焰离子化检测器。

Method : CBPI-M25-0.25 capillary column and hydrogen flame ionization detector were selected .

氢火焰离子化检测器校正因子的理论计算

Theoretical Calculation of the Relative Mass Calibration Factor of Hydrogen Flame Ionization Detector

氢火焰离子化检测器，检测器温度为260℃，进样口温度140℃。

Flame-ionization detector temperature was 260 ℃ and injection port temperature was 140 ℃ .

氢火焰离子化检测器。

Hydrogen flame ionization detector .

加热式氢火焰离子化检测器

Heated flame ionization detector

介绍了用双柱双氢火焰离子化检测器同时进样气相色谱法分析气体样品中非甲烷烃。

Non-methane hydrocarbons in the gas sample are analyzed simultaneously by GC with double columns and double FIDs .

该方法采用氢火焰离子化检测器，并用面积归一化法进行计算。

This method made use of hydrogen flame ionization detector ( FID ) and counted by area normalization method .

方法：以聚乙二醇-20M为固定相，涂布浓度为10%，柱温为130℃，氢火焰离子化检测器，检测器温度为170℃。

Methods : The determination was carried out on a PEG-20M stainless steel column with temperature at130 ℃, FID detector with temperature at170 ℃ .

利用毛细管色谱柱和氢火焰离子化检测器对生漆挥发物进行分离，分出7～9个色谱峰。

The volatile matter of Chinese lacquer was separated by GC with PEG 20M capillary column and FID . 7-9 components have been separated .

毛细管柱，以邻苯二甲酸二丁酯为内标物，以氢火焰离子化检测器对杀虫剂氯烯炔菊酯原药进行定性定量分析。

A gas chromatographic method for quantitative and qualitative analysis of chlorempenthrin using a HP-5 capillary column and dibutyl phthalate as internal standard was described .

方法应用气相色谱仪，氢火焰离子化检测器，检测器温度为250℃，进样口温度210℃，柱温120℃。

Methods Chromatograph-gas was used , flame ionization detector temperature was 250 ℃ and injection port temperature was 210 ℃, the temperature of column was 120 ℃ .

采用气相色谱法，选用3%ov－17／101硅烷化白色担体（60～80目）作为固定相，以氢火焰离子化检测器测定乙草胺可湿性粉剂含量。

A method was introduced for the determination of the acetochlor WP with GC-FID on 3 % ov-17 / 101 HMDS ( 60 ~ 80 mesh ) as fixed phase .

以PLOT/Al2O3石英毛细管柱为分析柱，采用氢火焰离子化检测器，建立了测定丙烯中烃类杂质含量的毛细管气相色谱法。

Hydrocarbon impurities in propylene were determined with capillary gas chromatography ( GC ) by using PLOT / Al 2 0 3 quartz capillary column and flame ionization detector ( FID ) .