气相色谱法测定汽油中甲缩醛、碳酸二甲酯、乙酸仲丁酯
|
摘要
建立了采用阀切换和预分离柱的气相色谱法测定汽油中甲缩醛、乙酸仲丁酯、碳酸二甲酯含量的方法。结果表明,当柱温为60℃、阀切换时间0. 45 min时,各目标物含量在0. 2%~10. 0%范围内,线性相关系数均大于0. 9995。方法的加标回收率均90%~110%,相对标准偏差均小于1%,3种目标化合物的检出限分别为:甲缩醛0. 03%、碳酸二甲酯0. 02%、乙酸仲丁酯0. 3%。
For the detection of illegal additions in gasoline,such as methylal,dimethyl carbonate and sec-butyl acetate,a test method was developed for the analysis of methylal,dimethyl carbonate and sec-butyl acetate in gasoline using a gas chromatography( GC) with valve switching and pre-column.The results showed that when the column temperature was 60℃ and the switching time was 0. 45 min,the linear correlation coefficient of each target compound is higher than 0. 9995 in the range of 0. 2%to 10. 0%. The method has recoveries of 90%-110% and relative standard deviations of less than1. 0%. The detection limits of methylal dimethyl carbonate and sec-butyl acetate are 0. 03%,0. 02%,0. 3%,respectively.
For the detection of illegal additions in gasoline,such as methylal,dimethyl carbonate and sec-butyl acetate,a test method was developed for the analysis of methylal,dimethyl carbonate and sec-butyl acetate in gasoline using a gas chromatography( GC) with valve switching and pre-column.The results showed that when the column temperature was 60℃ and the switching time was 0. 45 min,the linear correlation coefficient of each target compound is higher than 0. 9995 in the range of 0. 2%to 10. 0%. The method has recoveries of 90%-110% and relative standard deviations of less than1. 0%. The detection limits of methylal dimethyl carbonate and sec-butyl acetate are 0. 03%,0. 02%,0. 3%,respectively.
引文
[1] Dem'yanenko E A,Sachivko A V,Tverdokhlebov V P,et al. Chem. Tech. Fuels Oils,1993,29(6):267
[2] Li C X. Chinese J. Chromatogr.,2017,35(5):551李长秀.色谱,2017,35(5):551
[3] Rosell M,Lacorte S,Ginebreda A,et al. J. Chromatogr. A,2003,995(1):171
[4] Chen X Y. China Pet Chem Stand Qual,2013,33(6):261陈先银.中国石油和化工标准与质量,2013,33(6):261
[5] Zou Y,Mao J W,Guo H. Guangzhou Chem Ind,2015,43(13):50邹勇,毛佳伟,郭桦.广州化工,2015,43(13):50
[6] Gao Y Q,Li J L,Cai Z B,et al. Cheml Eng,2004,18(6):25高艳秋,李金龙,蔡正白,等.化学工程师,2004,18(6):25-27
[7] Nan X Q,Ba H P. Petrochem. Technol.,2014,43(1):106南秀琴,巴海鹏.石油化工,2014,43(1):106
[8] Pérez Pavón J,Nogal Sánchez M,Esther Fernández Laespada M,et al. J. Chromatogr. A. 2007,1175(1):106
[9] Iob A,Buenafe R,M. Abbas N. Fuel,1998,77(15):1861
[10] Zhong S F,Wen H,Xu L,et al. Chin J Spectrosc Lab,2012,29(6):3564钟少芳,闻环,徐玲,等.光谱实验室,2012,29(6):3564
[11] Zhao Y,Xu D Y,Lin H X,et al. Chinese J. Chromatogr.,2014,32(6):662赵彦,徐董育,林浩学,等.色谱,2014,32(6):662
[12] Zhang J D,Wei Y F,Chen J S,et al. Acta Petrol Sin(Pet Process Section),2013,29(03):501张继东,魏宇锋,陈俊水,等.石油学报(石油加工),2013,29(3):501
[13] Wwn H,Xu L,Lu H M,et al. Petrkchem Technol,2015,44(5):630闻环,徐玲,吕焕明,等.石油化工,2015,44(5):630
[14] Fei X D,Wei Y F,Qiu F,rt al. Mod Chem Ind,2015,35(7):178费旭东,魏宇锋,邱丰,等.现代化工,2015,35(7):178
[15] Gao Z R,Li J W,Wang C. Acta Petrol Sin(Pet Process Section),2014,30(4):712高枝荣,李继文,王川.石油学报(石油加工),2014,30(4):712
[16] Chen H R. Analysis of Gasoline Hydrocarbon Components[D]. Wuhan Institute of Technology,2016陈辉荣.汽油烃组分分析研究[D].武汉工程大学,2016
[17] Li N,Guo X,Tao Z P. Pet Process Petrochem,2015,46(2):12李娜,郭莘,陶志平.石油炼制与化工,2015,46(2):12
[18] Pasadakis N,Gaganis V,Foteinopoulos C. Fuel Process. Technol.,2006,87(6):505
[19] Hua R X. Study on Characterization Hydrocarbons&Sulfur-containing compounds in Oil Processing by Comprehensive Twodimensional Gas Chromatography[D]. Graduate University of Chinese Academy of Sciences(Dalian Institute of Chemical Physics),2005花瑞香.石油加工中烃类和硫化物组成表征的全二维气相色谱方法及应用研究[D].中国科学院研究生院(大连化学物理研究所),2005
[2] Li C X. Chinese J. Chromatogr.,2017,35(5):551李长秀.色谱,2017,35(5):551
[3] Rosell M,Lacorte S,Ginebreda A,et al. J. Chromatogr. A,2003,995(1):171
[4] Chen X Y. China Pet Chem Stand Qual,2013,33(6):261陈先银.中国石油和化工标准与质量,2013,33(6):261
[5] Zou Y,Mao J W,Guo H. Guangzhou Chem Ind,2015,43(13):50邹勇,毛佳伟,郭桦.广州化工,2015,43(13):50
[6] Gao Y Q,Li J L,Cai Z B,et al. Cheml Eng,2004,18(6):25高艳秋,李金龙,蔡正白,等.化学工程师,2004,18(6):25-27
[7] Nan X Q,Ba H P. Petrochem. Technol.,2014,43(1):106南秀琴,巴海鹏.石油化工,2014,43(1):106
[8] Pérez Pavón J,Nogal Sánchez M,Esther Fernández Laespada M,et al. J. Chromatogr. A. 2007,1175(1):106
[9] Iob A,Buenafe R,M. Abbas N. Fuel,1998,77(15):1861
[10] Zhong S F,Wen H,Xu L,et al. Chin J Spectrosc Lab,2012,29(6):3564钟少芳,闻环,徐玲,等.光谱实验室,2012,29(6):3564
[11] Zhao Y,Xu D Y,Lin H X,et al. Chinese J. Chromatogr.,2014,32(6):662赵彦,徐董育,林浩学,等.色谱,2014,32(6):662
[12] Zhang J D,Wei Y F,Chen J S,et al. Acta Petrol Sin(Pet Process Section),2013,29(03):501张继东,魏宇锋,陈俊水,等.石油学报(石油加工),2013,29(3):501
[13] Wwn H,Xu L,Lu H M,et al. Petrkchem Technol,2015,44(5):630闻环,徐玲,吕焕明,等.石油化工,2015,44(5):630
[14] Fei X D,Wei Y F,Qiu F,rt al. Mod Chem Ind,2015,35(7):178费旭东,魏宇锋,邱丰,等.现代化工,2015,35(7):178
[15] Gao Z R,Li J W,Wang C. Acta Petrol Sin(Pet Process Section),2014,30(4):712高枝荣,李继文,王川.石油学报(石油加工),2014,30(4):712
[16] Chen H R. Analysis of Gasoline Hydrocarbon Components[D]. Wuhan Institute of Technology,2016陈辉荣.汽油烃组分分析研究[D].武汉工程大学,2016
[17] Li N,Guo X,Tao Z P. Pet Process Petrochem,2015,46(2):12李娜,郭莘,陶志平.石油炼制与化工,2015,46(2):12
[18] Pasadakis N,Gaganis V,Foteinopoulos C. Fuel Process. Technol.,2006,87(6):505
[19] Hua R X. Study on Characterization Hydrocarbons&Sulfur-containing compounds in Oil Processing by Comprehensive Twodimensional Gas Chromatography[D]. Graduate University of Chinese Academy of Sciences(Dalian Institute of Chemical Physics),2005花瑞香.石油加工中烃类和硫化物组成表征的全二维气相色谱方法及应用研究[D].中国科学院研究生院(大连化学物理研究所),2005