A novel thin layer chromatography–flame ionization detection method for saturated, asphaltenes, resins, and asphaltenes group‐type composition analysis with reverse order of chromatogram development

Abstract

The methodologies of asphaltenes‐containing petroleum materials: saturated, aromatics, resins, asphaltenes group‐type composition analysis are performed with the use of column adsorption‐desorption or thin layer chromatography (TLC)‐flame ionization detection under normal phase conditions with silica gel as the adsorbent. In a three‐step procedure, the TLC chromatogram is developed within a decreasing distance by the mobile phase with increasing elution strength (polarity). The n‐alkane used in the first step does not dissolve asphaltenes, which leads to the occlusion effect and an underestimation of the percentage of saturated hydrocarbons. In this article, the reverse order of the subsequent elution steps was proposed: the solvent polarity is simultaneously reduced and the chromatogram development distance is increased in the order dichloromethane:methanol 95:5 v/v, 3 cm; toluene, 6 cm; and n‐hexane, 10 cm. It was also intentional to reduce the weight of the applied sample to 5 μg for bitumen and 2 μg for asphaltene purity testing. It should be the rule that in stepwise TLC chromatogram development, the first mobile phase is a good solvent for all testing components. The IP 469 procedure should be corrected.