尼日利亚沥青石蜡烃组分的多元分析表征

F.M. Adebiyi, G.E. Akhigbe
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引用次数: 11

摘要

对尼日利亚沥青石蜡烃(PH)馏分进行了分析,建立了其特征,为该自然资源的开发过程提供了依据。采用柱层析法对油砂中提取的沥青样品进行脱沥青和石蜡烃洗脱。采用傅里叶变换红外光谱法(FT-IR)和气相色谱法(GC)研究了ph的有机成分;元素浓度用原子吸收光谱法测定,物理性质用标准方法测定。红外光谱分析表明,样品中主要存在CH(CH3)和CH(CH2)官能团,纯度较高。用气相色谱法对31个有机化合物进行了鉴定和定量。烃源岩的平均碳偏好指数为1.035,表明烃源岩为热成熟烃源岩。使用有机物浓度作为变量的主成分分析表明,这些化合物具有相似的化学性质、共同的来源和/或成熟年龄。与尼日利亚沥青的其他组分相比,ph的元素浓度普遍较低,其t检验值也证实了这一点,两者之间存在显著差异。元素聚类分析显示,两组具有相当的相关性,表明相似的来源和/或化学亲和力。ph值V/Ni比值0.10 ~ 1.88(1.12)接近尼日利亚原油的0.45 ~ 2.28(1.12),高于尼日利亚原油的平均值(0.16),而本研究得到的V/V + Ni比值0.09 ~ 0.65(0.50)也接近尼日利亚原油的0.31 ~ 070(0.50)。ph值的颜色从无色到灰白色不等。分析的物理参数值证实,PHs含有相对高浓度的碳,并且在发动机燃烧室中燃烧速度较慢。这项研究还就矿物燃料的转化机制和发展对环境的影响提供了有用的资料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of paraffinic hydrocarbon fraction of Nigerian bitumen using multivariate analytical techniques

Nigerian bitumen paraffinic hydrocarbon (PH) fraction was analyzed to establish the characteristics which might aid the developmental processes of the natural resource. Bitumen samples extracted from the oil sands were deasphalted and paraffinic hydrocarbons (PHs) eluted by column chromatography. The organic components of the PHs were investigated using Fourier transform infrared (FT-IR) spectrometry and Gas chromatography (GC); elemental concentration was determined using Atomic absorption spectrometry, while physical properties by standard methods. The IR spectra showed mainly the presence of CH(CH3) and CH(CH2) functional groups, indicating high purity of the samples. Thirty-one organic compounds were identified and quantified by GC. The PHs had a mean carbon preference index value of 1.035, indicating that the PHs were thermally matured and of petrogenic origin. Principal component analysis using the organics’ concentrations as variables indicated that the compounds had similar chemical properties, common sources, and/or maturation age. Elemental concentrations of the PHs were generally low compared with other fraction of Nigerian bitumen and were confirmed by their T-test values which indicated significant difference. Elemental cluster analysis showed two groups which were fairly correlated indicating similar sources and/or chemical affinity. The PHs V/Ni ratio 0.10–1.88 (1.12 was close to that of Nigerian bitumen 0.45–2.28 (1.12) which was higher than the average value (0.16) obtained for Nigerian crude oil, while V/V + Ni ratio 0.09–0.65 (0.50) obtained in this study is also close to 0.31–070 (0.50) obtained for Nigerian bitumen. Color of the PHs ranged from colorless to off-white. Values of the analyzed physical parameters confirmed that the PHs contained relatively high concentration of carbon and would tend to burn slower in the combustion chamber of an engine. The study also provided useful information on conversion mechanism and environmental implications of the development of the fossil fuel.

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