Comparative Analysis of High-Viscosity Oils from the Khanty-Mansi Autonomous Okrug and the Naftalan Oil Field to Assess Their Balneological Potential

The physicochemical properties, fractional composition, structural-group composition, molecular composition, and the content of individual SARA fractions were characterized for high-viscosity naphthenic crude oils of the Pokur Formation produced in Khanty-Mansi Autonomous Okrug (KhMAO), Russia in co...

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Published in:Petroleum chemistry Vol. 63; no. 9; pp. 1027 - 1038
Main Authors: Vtorushina, E. A., Kulkov, M. G., Salakhidinova, G. T., Butyrin, R. I., Aliev, A. E., Nigametzyanov, I. R., Vtorushin, M. N., Yakovlev, M. Yu, Kopytov, A. G.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-11-2023
Springer
Springer Nature B.V
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Summary:The physicochemical properties, fractional composition, structural-group composition, molecular composition, and the content of individual SARA fractions were characterized for high-viscosity naphthenic crude oils of the Pokur Formation produced in Khanty-Mansi Autonomous Okrug (KhMAO), Russia in comparison with therapeutic oil from the Naftalan oil field, Azerbaijan. All the tested oil samples exhibited high density (0.922– 0.956 g/cm 3 ), high boiling points (164–199°C), high molecular weights (302–424 g/mol), and low paraffin content (0.04–0.42 wt %). The greatest similarity in terms of compositions was observed between the samples from the Naftalan and KhMAO-1 oil fields. The SARA analysis revealed a high content of resins and asphaltenes in crude oils from the KhMAO-2 field. This explains the distinctive features of the fractional composition (examined by SimDis simulated distillation) and structural-group composition (n–d–M method) of this sample, specifically its higher content of unevaporated residue (i.e., components that boil above 500°C), higher concentrations of naphthenic and aromatic carbons, and increased ring numbers in ring structures. GC/MS characterization of the molecular composition showed, for all samples, identical sets of adamantane and its homologues, as well as sesquiterpanes, steranes, tricyclic terpanes, aromatic steroids, and, to some extent, naphthalenes. The paraffin-naphthenic fractions of the Naftalan and KhMAO-1 oils consisted mostly of isoprenoid alkanes, and phenanthrenes predominated among the aromatic fractions of these samples. Furthermore, the Naftalan and KhMAO-1 crude oils were similar in the concentrations of adamantanes and decalines. The revealed similarity in the molecular, structural-group, and fractional compositions and in the SARA analysis between the KhMAO and Naftalan crude oils offers good opportunities for alternative uses of the Pokur high-viscosity oils from the KhMAO oil fields as analogs of Naftalan oil and promising raw materials for the production of therapeutic products for the purposes of balneology and practical health care.
ISSN:0965-5441
1555-6239
DOI:10.1134/S0965544123060282