JIANG Xu-feng(姜旭峰), ZHAO Yuan-li(赵媛莉), XIAO Yun-peng(校云鹏), SUN Ji ng(孙 静)
Department of Material and Oil, Air Force Logistics College, Xuzhou 221000, Chi na
Abstract: This paper aims at testing oxygen and benzene contents in gasoline by mid-infrared spectroscopy. The experimental results prove that infrared spectr oscopy (IR) is reliable. Compared with gas chromatography (GC) technology, this paper draws a conclusion that IR has several advantages, including rapid analysi s, excellent repeatability and low analysis cost.
Key words: oxygen; benzene; mid-infrared spectroscopy; gasoline; gas chromatogr aphy(GC)
CLD number: TN219 Document code: A
Article ID: 1674-8042(2013)03-0299-03 doi: 10.3969/j.issn.1674-8042.2013.03.0 21
References
[1] SINOPEC Research Institute of Petroleum Processing. SH/T 0663-1998 standard test method for determination of certain alcohols and ethers in gasoline by gas chromatography. 1998: 1-15.
[2] American Society of Testing Materials. AS/TM D4815-03 Standard test method f or determination of MTBE, ETCE, TAME, DIPE, methanol and tert-butanol in gaso line by infrared spectroscope, USA, 1995.
[3] Wheeler O H. The application of mid-infrared spectroscopy. Journal of Chemic al Education, 1960, 37(1): 234.
[4] American Society of Testing Materials. ASTM E 1655-05-2005 standard practice s for infrared multivariate quantitative analysis, USA, 2005.
[5] WEN Huan, CHEN Yan, HU Jiang-yong, et al. Determination of aromatic and olef in in motor gasoline by mid-infrared spectroscopy. Chinese Journal of Spectrosco py Laboratory, 2011, 28(3): 1306-1310.
[6] ZHAO Sheng-hong, HUANG Yi, LIU Duo-qiang. The application of mid-infrared sp ectroscopy in oil analysis. Petrochemical Industry Application, 2009, 28(7): 6.
[7] ZHANG Shao-hua, WANG Yu-xin, TIAN Shou-fu, et al. Determination of benzene c ontents in reformate by near infrared spectroscopy. Modern Scientific Instrument s, 2007, (3): 110-111.
[8] ZHANG Jun, JIANG Li, CHEN Zhe, et al. Study on the gasoline classification m ethods based on near infrared spectroscopy. Spectroscopy and Spectral Analysis, 2010, 30(10): 2654-2657.
[9] DAN Tu-nan, DAI Lian-kui. Methanol gasoline quantitative analysis based on N IR spectroscopy. Computers and Applied Chemistry, 2011, 28(3): 329-332.
[10] SHI Yong-gang, LIU Shao-pu, SONG Shi-yuan, et al. Near infrared analysis of major classes of hydrocarbon constituents in gasoline with least square-support vector machine. Journal of Instrumental Analysis, 2007, 26(3): 343-346.
[11] American Society of Testing Materials. ASTM D 4053-04-2004 standard test me thod for benzene in motor and aviation gasoline by infrared, USA, 2004.
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