Abstract
The hydrophobicity of and products can be characterised in terms of its equivalent alkane carbon number (EACN). This characteristic can be determined on the basis of the correlation between the interfacial tension data and other characteristics for homologous oils and a number of alkanes having subsequent interpretation for and products. The EACN is a useful metric for selecting an effective surfactant for the emulsification of and products. The research is aimed at determining the equivalent alkane car-bon number of various crude samples obtained in the fields of Western Siberia using standard high-performance compositions of imported and domestic industrial sulphonate surfactants. In order to determine the EACN of and products, the S* characteristic was applied representing the optimal NaCl concentration (optimum salinity) in the aqueous surfactant phase, as well as providing the minimum surface tension and formation of the maximum microemulsion volume during the phase experiment at the interface with the hydro-carbon phase. Direct determination of the interfacial tension at the oil / surfactant solution interface was car-ried out with a tensiometer using the spinning drop method at a temperature of 87 ° С . Linear dependencies are identified in accordance to the empirical correlation equations between the EACN, surfactant parameters and phase behaviour parameters of aqueous surfactant solutions and or a mixture of hydrocarbons. The K characteristic parameter of the proposed three standard surfactant compositions is determined to be consistent with the literature data for individual surfactants. The composition of industrial surfactants for determining the EACN of and products is proposed. The equations of linear regression for the logS* ~ EACN dependency with high correlation coefficients (R² = 0.9444-0.9999) are obtained, resulting in the determination of the EACN for kerosene and seven samples from Western Siberian fields. Promising surfactants can be selected on the basis of this indicator for reducing interfacial tension in the hydrocarbon / water solution system, as well as for predicting the most effective composition for obtaining emulsions.
Highlights
The hydrophobicity of oil and oil products can be characterised in terms of its equivalent alkane carbon number
This characteristic can be determined on the basis of the correlation
The equivalent alkane carbon number (EACN) is a useful metric for selecting an effective surfactant for the emulsification of oil and oil products
Summary
Суторминского, БС7 (1) Суторминского, БС7 (2) Холмогорского, БС10 (1) Холмогорского, БС10 (2) Спорышевского, АС6 Западно-Салымского, АС11 Средне-Итурского, БС9 Керосин. 4 представлены графики зависимости logS* от EACN для всех трех стандартных композиций ПАВ. Результаты, полученные на 3-х стандартных композициях ПАВ, с высокой достоверностью подтверждают линейную корреляцию (3), где K – характеристический параметр стандартной композиции ПАВ (наклон графика зависимости логарифма оптимальной солености от EACN), показывает изменение сродства ПАВ к нефти по мере увеличения ее EACN. Значения K, полученные для 3-х композиций промышленных смесевых ПАВ, с литературными данными для индивидуальных поверхностно-активных веществ [15, 6, 19,20,21,22,23], представлены в табл. Показана возможность использования композиций ПАВ на основе смеси внутренних олефинсульфонатов натрия (Enordet 1SPD13IW), а также смесей алкоксилированного алкилглицидилсульфоната натрия и алкилбензолсульфоната натрия (в мольном соотношении 1:1 и 1,25:1) в качестве стандартных для изучения зависимости логарифма оптимальной солености (logS*) от величины эквивалентного алканового углеродного числа нефтей и нефтепродуктов (EACN)
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