Fractionation of polar compounds from crude oils by hetero-medium pressure liquid chromatography (H-MPLC) and molecular characterization by ultrahigh-resolution mass spectrometry

[Display omitted] •A fractionation protocol of polar compounds by hetero-medium pressure liquid chromatography (H-MPLC) is described.•The DBE profile of polar compounds shifted to low values as the fraction‘s polarity increase.•H-MPLC reduced the complexity of the polar fraction and allowed to exten...

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Bibliographic Details
Published in:Fuel (Guildford) 2020-05, Vol.267, p.117289, Article 117289
Main Authors: Rodrigues Covas, Taynara, Santos de Freitas, Carla, Valadares Tose, Lilian, Valencia-Dávila, Jeferson A., dos Santos Rocha, Ygor, Duncan Rangel, Mario, Cabral da Silva, Rodrigo, Gontijo Vaz, Boniek
Format: Article
Language:English
Subjects:
Abundance
Aromatic compounds
Carbazoles
Chromatography
Crude oil
Fractionation
FT-ICR MS
Gas chromatography
H-MPLC
Ionization
Ions
Liquid chromatography
Liquid-liquid extraction
Mass spectrometry
Mass spectroscopy
Negative ions
Oil
Orbitrap
Polarity
Positive ions
Relative abundance
Resins
Scientific imaging
Separation
Solid phases
Spectroscopy
Ultrahigh-resolution mass spectrometry
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Summary:[Display omitted] •A fractionation protocol of polar compounds by hetero-medium pressure liquid chromatography (H-MPLC) is described.•The DBE profile of polar compounds shifted to low values as the fraction‘s polarity increase.•H-MPLC reduced the complexity of the polar fraction and allowed to extend the chemical characterization. Polar compounds from three Brazilian crude oils were isolated and separated into seven fractions according to the polarity (low polarity-LP, low medium polarity-LMP, high medium polarity-HMP, high polarity-HP, basic-BAS, acidic-AC) by using hetero-medium pressure liquid chromatography (H-MPLC). Chemical characterization of all fractions was performed by mass spectrometry using an electrospray ionization source. In positive ion mode, the N1 compound class was detected with high relative abundance in all samples. Interestingly, the unsaturation degree of this heteroatom class decreased from fractions LP, LMP, HMP to the HP, BAS and AC fractions. On the other hand, the type of compound classes found in negative ion mode was more diverse, revealing that nitrogen species (N1) corresponding to carbazoles, were eluted in the less polar fraction (LP). Conversely, NxOy (x = 1, y = 1–4) heteroatom classes were found with a higher relative abundance in LMP, HMP, HP and BAS fractions. Overall, the H-MPLC reduced the complexity of the polar fraction contained in whole crude oils and allowed to extend the chemical characterization since the number of molecular formulas assigned in all fractions exceeds significantly to those detected in the whole crude oils. This separation methodology is an interesting alternative to other techniques such as gas chromatography (GC, GCxGC), liquid/liquid extraction, extrography, solid phase extraction and SARA (saturates, aromatics and resins) separation. MPLC not only isolate polar compounds but also fractionate them by the degree of polarity without previous de-asphalting steps. This separation approach, along with the molecular characterization of polar compounds by ESI-Orbitrap MS is also a tempting option to perform geochemical assessment of crude oils and source rocks.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2020.117289