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Obtaining High‐Paraffin‐Content Oil Depressants
Author(s) -
Nadirov Kazim S.,
Zhantasov Manap K.,
Marenov Bekaydar T.,
Bimbetova Gulmira Zh.,
Orynbasarov Arslanbek K.,
Shukhanova Zhulduz K.,
Otarbayev Nurlibek Sh.,
Nadirova Zhanna K.,
Iztleuov Gani M.,
Zhantasova Dina M.
Publication year - 2021
Publication title -
chemical engineering and technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.403
H-Index - 81
eISSN - 1521-4125
pISSN - 0930-7516
DOI - 10.1002/ceat.202000366
Subject(s) - chemistry , pour point , reagent , liquid paraffin , fatty alcohol , organic chemistry , dissolution , chemical engineering , viscosity , alcohol , distillation , chromatography , materials science , composite material , engineering
A depressor action composition was prepared for lowering the pour point of high‐paraffin oils based on butanol and cotton soap stock fatty acids (FA), mainly a C16–C18 distillate fraction. The possibility of using cotton soap stock FA for their esterification with butyl alcohol and ester production based on them is shown. A scheme for preparing the depressor action reagent “BEG‐1” based on the esterified FA, monoethanolamine, and cotton soap stock is proposed. When the BEG was introduced into the samples of high‐paraffin oil taken directly from the group metering device, a decrease in the paraffin crystal size and shape was observed, i.e. their almost complete dissolution, which was accompanied by a change in the viscosity of the samples. Compositions having high surface‐active properties, thermodynamic resistance, and stability were prepared. The paraffin crystal morphology, crystal structure, and shape change were studied. The data obtained are of value for the pipeline transport of hydrocarbons, as the use of the proposed depressor action reagent for high‐paraffin oils can significantly reduce the viscosity of the oil in the pipeline, helping to reduce the energy costs associated with heating the oil for its pumping.