RU2734424C1 - Method for continuous compounding of oils - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to methods for compounding of oils intended for various purposes, for example lubricating oil of friction parts, transformer oils and oils of other purposes. Method comprises mixing base oils with an additive package continuously in a stream of mixture in a vortex layer apparatus at temperature of 18–21 °C. At the same time, impact of cylindrical ferromagnetic bodies located in the working chamber of the vortex layer apparatus is simultaneously performed with the rate of particles position change of 3000–4800 times a minute of each particle, alternating electromagnetic field with frequency of 3000–4800 changes per minute and cavitation occurring under the effect rapidly moving ferromagnetic bodies in oil. Additive package is dispersed in the base oil for 1–3 seconds. Compounding process is carried out continuously, supplying in a vortex layer chamber working chamber a base oil mixture with an additive package at temperature of 18–21 °C, pressure 2 atmosphere, electric current frequency 60–80 Hz and volume flow rate of mixture 30–55 l/min.

EFFECT: technical result is higher viscosity index, low power consumption, continuity of compounding process.

1 cl, 2 tbl, 2 ex

Description

The invention relates to methods for compounding oils intended for various purposes, for example, oils for lubricating rubbing parts, transformer oils, oils for other purposes.

It is known that such oils are made at a temperature of 60-80 ° C by mixing the so-called base oils, which are either a fraction extracted from oil, or a synthetic, mainly organosilicon polymer, or a mixture of an oil fraction with a synthetic oil (such oils are called semi-synthetic) with a package of additives (V.I. Vigdorovich, P.G.Knyazeva, L.E. Tsygankova et al. Research of the properties of petroleum and synthetic oils as the basis for the anticorrosive properties of materials // Chemistry and technology of fuels and oils 2019, No. 4, P. 35 -41). An additive package is a mixture of substances that give the base oil the properties required of it in order for it to become suitable for a given application.

There is a known compounding method, in which a package of additives is introduced into a base oil heated to 60-70 ° C, and mixing with a paddle stirrer, performing 80-100 rpm for 3-6 hours (RF patent No. 2374311, IPC S01M 16300, publ. 27.11.2009, bull. No. 33).

The known method is energy-intensive, long-term and periodic, energy is spent on heating and stirring.

A known method of compounding by acting on a mixture of base oil with a package of additives by ultrasound in acoustic cavitation mode at a resonant frequency of 23 kHz (RF patent No. 2591918, IPC S01M 177/00, В82В 1/00, B22F 9/04, С10М 125/04, publ. 20.07.2016, bull. No. 20).

The disadvantage of this method is that it is periodic and energy intensive.

The closest to the claimed method is a method for producing lubricants - commercial oils and cutting fluids by initiating cavitation and the emergence of a process of "cold" mixing of base oils and additives (RF patent No. 2633571, IPC B01F 5/06, publ. 13.10.2017, Bulletin No. 28).

The disadvantages of the known compounding method are energy consumption, duration and frequency of the process.

The objective of the invention is the short-term, "cold" and with low energy consumption compounding oils and increasing the viscosity index.

The result of using the proposed invention is to increase the viscosity index, reduce energy consumption for compounding, ensure the continuity of the short-term, "cold" compounding process due to the fact that compounding of oils is carried out in a vortex layer apparatus.

The above technical result is achieved by the fact that in the proposed method of continuous compounding of oils, including mixing base oils with an additive package, according to the invention, the mixing of base oils with an additive package is carried out continuously in a mixture flow in a vortex layer apparatus, in which the mixture of base oil with a package additives at a temperature of 18-21 ° C simultaneously act by impacts of cylindrical ferromagnetic bodies located in the working chamber of the vortex layer apparatus, at a rate of change in the position of particles 3000-4800 times per minute of each particle, an alternating electromagnetic field with a frequency of 3000-4800 changes per minute and cavitation , arising under the influence of rapidly moving ferromagnetic bodies in the oil, while the additive package is dispersed in the base oil for 1-3 seconds, and the compounding process is carried out continuously, feeding a mixture of base oil with an additive package in a stream into the working chamber of the vortex layer apparatus at a temperature of 18- 21 ° C, giving 2 atmosphere, electric current frequency 60-80 Hz and volumetric flow rate of the mixture 30-55 l / min.

The devices of the vortex layer, due to the simple device, provide high reliability in operation, and due to their low weight and small dimensions, they are easily installed in production facilities without special foundations (D.D. Logvinenko, O.P. Shelyakov Intensification of technological processes in devices with a vortex layer / / Techsha, Kiev 1976, p. 78, tab. 18, Kart MA, Kart BM, Voytovich VA, Zakharychev EA, Shvarev PP Use of vortex layer apparatuses to obtain water-oil emulsions // J. Chemical Engineering, No. 1, 2018). By placing the devices in parallel, it is possible to provide the specified performance.

The most important indicator of the quality of a compounded hydraulic oil is the viscosity index, which illustrates the effect of temperature on oil viscosity. The less this influence, the higher the value of the viscosity index: oil with a higher viscosity index is more suitable for operation, both at high and low temperatures. The value of the viscosity index is influenced by the frequency of the electric current supplied to the apparatus of the vortex layer, since the speed of rotation of the electromagnetic field created in the apparatus of the vortex layer depends on the frequency of the electric current, and the electromagnetic field with different frequencies has different effects on the object under the influence of this field, it affects and on petroleum hydrocarbons (Pivovarova N.A. et al. Influence of the magnetic field on the results of atmospheric distillation of stable gas condensate // Chemistry and technology of fuels and oils 2019, No. 1, pp. 3-6; Lyubimenko V.A., Frolov V .N., Krestovnikov MP Mathematical modeling of the process of thermal cracking of oil sludge activated by electromagnetic radiation // Chemistry and technology of fuels and oils 2016, No. 2, C 12-15; Vinokurov V.A., Krestovnikov M.P., Frolov VI et al. Influence of electromagnetic radiation on the group and fractional composition of oils and oil residues // Chemistry and technology of fuels and oils 2015, No. 4, pp. 3-6).

As a result of the experimental studies, it was found that the viscosity index during continuous compounding of oils at a temperature of at least 18 ° C and the volumetric flow rate of a mixture of base oil and a package of additives through a vortex layer apparatus of 30 l / min is affected by the frequency of electric current, which is shown in Table 1.

From the results shown in table. 1, it can be seen that the highest viscosity index of the hydraulic oil is achieved at an electric current frequency of 70 Hz.

As a result of the experimental studies, it was found that the value of the viscosity index is influenced by the residence time of the mixture of the base oil and the additive package in the electromagnetic field, determined by the volumetric flow rate of the mixture, which is shown in Table 2.

From the results shown in Table 2, it can be seen that the highest viscosity index is achieved at a mixture volume flow of 45 l / min.

The proposed method is carried out as follows. The base oil and the additive package are fed into the working chamber of the vortex layer apparatus, in which cylindrical ferromagnetic bodies are placed. Short-term, "cold" mixing is carried out continuously in the mixture flow. The mixture of base oil with a package of additives at a temperature of 18-21 ° C is simultaneously affected by the impacts of cylindrical ferromagnetic bodies with a speed of changing the position of particles 3000-4800 times per minute of each particle, an alternating electromagnetic field with a frequency of 3000-4800 changes per minute and cavitation arising under the effect of fast moving ferromagnetic bodies in oil. The additive package is dispersed in the base oil for 1-3 seconds, feeding the base oil and the additive package in-line at a pressure of 2-3 atmospheres and a temperature of 18-21 ° C, an electric current frequency of 60-80 Hz and a mixture volumetric flow rate of 30-55 l / min. , receiving a product with desired properties at the outlet of the vortex layer apparatus.

Examples illustrating the quality of oils obtained by the proposed method in comparison with oils obtained by mixing the base oil with an additive package with a paddle stirrer operating at 70 rpm at a temperature of 70 ° C for 4 hours.

Example 1. Used base oil VHVI-4.

Irgalube 3010A and PMA D were used as additives.

The viscosity index of the compounded oil after heating it to 70 ° C and stirring at this temperature for 4 hours at a stirrer speed of 70 rpm is equal to 168.

The viscosity index of a similar oil, compounded by the proposed method at a temperature of 21 ° C, at a volumetric flow rate of the mixture in the vortex layer apparatus of 45 l / min (1.5 sec in the working area of the vortex layer apparatus), at a rate of change in the position of particles 4200 times per minute of each particle , at a pressure of 2 atm, an electromagnetic field frequency of 70 Hz is 229.

Example 2. Used base oil VHVI-4

Penrolad 9200, PMA D 110, Viscotech 6540 were used as additives

The viscosity index of the compounded oil after heating it to 70 ° C and stirring at this temperature for 4 hours at a stirrer speed of 70 rpm is equal to 184.

The viscosity index of a similar oil, compounded by the proposed method at a temperature of 21 ° C, at a volumetric flow rate of the mixture in the vortex layer apparatus of 45 l / min (1.5 sec in the working area of the vortex layer apparatus), at a rate of change in the position of particles 4200 times per minute of each particle , at a pressure of 2 atm, an electromagnetic field frequency of 70 Hz is 202.

Claims (1)

A method for continuous compounding of oils, including mixing base oils with an additive package, characterized in that the mixing of base oils with an additive package is carried out continuously in a mixture flow in a vortex layer apparatus, in which the mixture of base oil with an additive package at a temperature of 18-21 ° C simultaneously impact by impacts of cylindrical ferromagnetic bodies located in the working chamber of the vortex layer apparatus, at a rate of change in the position of particles 3000-4800 times per minute of each particle, an alternating electromagnetic field with a frequency of 3000-4800 changes per minute and cavitation arising under the influence of rapidly moving ferromagnetic bodies in oil, while the additive package is dispersed in the base oil for 1-3 seconds, and the compounding process is carried out continuously, feeding the mixture of the base oil with the additive package in flow into the working chamber of the vortex layer apparatus at a temperature of 18-21 ° C, a pressure of 2 atmospheres, a frequency electric current 60-80 Hz and volumetric flow rate of the mixture 30-5 5 l / min.