Abstract: A method for producing a low-viscosity high-aromatic non-carcinogenic petroleum-based process oil which can be used as a plasticizer oil or an extender oil in the manufacture of synthetic rubber and tyres is described. The oil is obtained from by-product fractions of secondary petrochemical processes by fractional distillation, wherein the used by-product fractions of secondary petrochemical processes are products of catalytic cracking, or products of catalytic reforming, or aromatic extracts, or mixtures thereof, which have an initial boiling point of no less than 200° C. and above and a final boiling point of no less than 360° C. at atmospheric pressure, and contain no less than 85% of aromatic constituents and no more than 10.0 mg/kg of the sum of the following polycyclic aromatic hydrocarbons: benz[a]anthracene; chrysene; benzo[b]fluoranthene; benzo[i]fluoranthene; benzo[k]fluoranthene; benzo[e]pyrene; benzo[a]pyrene; and dibenzo[a,h]anthracene.

Abstract: A method for producing a low-viscosity high-aromatic non-carcinogenic petroleum-based process oil which can be used as a plasticizer oil or an extender oil in the manufacture of synthetic rubber and tyres is described. The oil is obtained from by-product fractions of secondary petrochemical processes by fractional distillation, wherein the used by-product fractions of secondary petrochemical processes are products of catalytic cracking, or products of catalytic reforming, or aromatic extracts, or mixtures thereof, which have an initial boiling point of no less than 200° C. and above and a final boiling point of no less than 360° C. at atmospheric pressure, and contain no less than 85% of aromatic constituents and no more than 10.0 mg/kg of the sum of the following polycyclic aromatic hydrocarbons: benz[a]anthracene; chrysene; benzo[b]fluoranthene; benzo[i]fluoranthene; benzo[k]fluoranthene; benzo[e]pyrene; benzo[a]pyrene; and dibenzo[a,h]anthracene.

Abstract: A method for extracting phytosterols from tall oil pitch. The method involves saponifying tall oil pitch using an alkali in a polyatomic alcohol, extracting unsaponified matter from the alkali-alcohol solution using a hydrocarbon solvent, subsequently removing the solvent by distillation, and concentrating the phytosterols, wherein a mixture of paraffin hydrocarbons is used as said hydrocarbon solvent, and, following extraction from the extraction solution, betulin is isolated by crystallization and the phytosterols are then concentrated by means of rectification. This method enables an increase in the extraction rate of phytosterols from a saponified tall oil pitch up to 95%, producing the end product with phytosterol content of at least 65% with unwanted betulin impurities at no more than 0.3%.

Abstract: The invention relates to the wood chemical industry and concerns a method for extracting phytosterols from tall oil pitch. The present method of extracting phytosterols from tall oil pitch involves saponifying tall oil pitch using an alkali in a polyatomic alcohol, extracting unsaponified matter from the alkali-alcohol solution using a hydrocarbon solvent, subsequently removing the solvent by distillation, and concentrating the phytosterols, wherein a mixture of paraffin hydrocarbons is used as said hydrocarbon solvent, and, following extraction from the extraction solution, betulin is isolated by crystallization and the phytosterols are then concentrated by means of rectification. This method makes it possible to increase the rate of extraction of phytosterols from saponified tall oil pitch to up to 95% and allows an end product to be produced that has a phytosterol content of at least 65% with unwanted betulin impurities at no more than 0.3%.

Abstract: The present invention relates to the chemical or petroleum-processing industry and can be used in the production of petroleum plasticizers for synthetic rubber and tyres. In the method for producing non-carcinogenic aromatic process oil, containing a PCA extract of less than 3.0% according to the IP-346 method, said method comprising purifying the oil fractions of petroleum with selective solvents and separating the extract, additionally processing the extract with a polar solvent and producing a raffinate as the end product, the polar solvent used is a mixture of dimethylsulphoxide and Nmethylpyrrolidone, which is used for preliminary processing of the extract, wherein, after the preliminary processing, the mixture of extract and polar solvent is filtered, divided and the light phase is sent to the additional processing of the extract with the polar solvent, and the heavy phase is sent to a polar solvent regeneration stage.