UA76352C2 - A method for electromagnetic treatment of liquid hydrocarbons - Google Patents

Abstract

A method for electromagnetic treatment of liquid hydrocarbons, which involves warming up thereof to gas-vapor state, electromagnetic irradiation and cooling to the liquid state, at that electromagnetic irradiation of hydrocarbons is conducted at frequencies characteristic for loosening molecules just up to the breaking their molecular links and corresponding to frequencies of maximal absorption ofelectromagnetic energy by hydrocarbons. This provides an irreversible modification of molecular structure and isomerization of initial hydrocarbons bythe breaking their molecular links, and can be used for obtaining high-octane motor-car petrol.

Description

Description of the invention

The invention relates to the field of oil refining, in particular to non-catalytic methods of electromagnetic 2 processing of liquid hydrocarbons and can be used to obtain high-octane automobile gasoline.

A known method of modification of fuel and lubricant materials and a modifier (Patent of the Russian Federation Mo

КИ 2121595, 6Р02М27/04, С10032/021, which consists in processing fuel and lubricant materials with an alternating magnetic field, the frequency of which continuously increases from the beginning to the end of processing. This method allows to improve a number of characteristics of processed hydrocarbons, but provides only a short-term increase in their octane number.

The technical solution closest in terms of technical essence is the method of processing liquid hydrocarbons and the installation for its implementation (Patent of the Russian Federation Mo KO 2179572, 7 С10032/0)| The method consists in the fact that liquid hydrocarbons are preheated to the vapor state, then they affect the resulting vapors with unipolar electromagnetic pulses, and then the vapors are cooled to the liquid phase state. This method is more effective, 72 because the vapor-gas phase of hydrocarbons is processed, but it does not provide a sufficient degree of reorientation of molecules and does not change the molecular structure of the raw material, so it does not allow obtaining high values of the octane number of hydrocarbon fuel.

The basis of the invention is the task of creating a method of processing hydrocarbon raw materials, which ensures an irreversible change in the molecular structure and isomerization of the original hydrocarbons by breaking their molecular bonds.

The established goal is achieved by the fact that in the method of electromagnetic treatment of liquid hydrocarbons, which includes their heating to a vapor-gas state, electromagnetic irradiation and cooling to a liquid state, electromagnetic irradiation of hydrocarbons is carried out at frequencies characteristic for rocking molecules and breaking their molecular bonds, which correspond to frequencies maximum absorption of electromagnetic energy by hydrocarbons. Gee)

Frequencies of maximum absorption of electromagnetic energy by hydrocarbons can be established by laboratory testing of samples of specific hydrocarbon raw materials.

If, during the electromagnetic processing of raw materials, their irradiation is carried out at frequencies corresponding to the frequencies of maximum absorption detected during laboratory analysis, this will ensure the most effective process of irreversible modification of hydrocarbons, since the maximum absorption of electromagnetic energy by the raw materials indicates that it is maximally spent on rocking the molecules of the raw materials and the breaking of their molecular bonds. at

Thus, due to the use of electromagnetic radiation at frequencies of maximum absorption for the processing of raw materials, the proposed solution allows irreversible modification of 3o hydrocarbon raw materials by breaking molecular bonds, which ensures its stable isomerization and increases the octane number. This makes it possible to use the created isomerizates to obtain high-octane automobile gasoline.

This advantage differs from the advantages of the given analogs. At the same time, the authors are not aware of technical solutions that are characterized by a similar set of features. With 70 The method is characterized by the fact that it consumes only raw materials and electricity, and the depth of processing from raw materials, that is, we get an octane number, depends only on the power of the irradiators and the duration of exposure.

From" Fig. 1 shows a block diagram of the installation for implementing the method. Fig. 2, C shows graphs of the dependence of electromagnetic energy absorption on the frequency of electromagnetic radiation for hydrocarbon raw materials.

To implement the proposed method, an installation is used, which contains reactor unit 1, irradiators 2, photometer 3, unit 4 for controlling irradiators and storage capacity 5. The inlet pipe of reactor unit 1 is connected to the source of raw materials, and the outlet is connected to storage capacity 5 . Entrance

Ge") of the photometer Z is connected to the input of the irradiator control unit 4, the output of which is connected to the irradiators 2. o The method is implemented as follows: the hydrocarbon raw material is loaded into the reactor unit 1, where first sl 20 is heated to a vapor-gas state, and then it is subjected to electromagnetic influence irradiators 2. During irradiation, the state of the raw materials is monitored by photometer C, the information from which is sent to the control unit with irradiators 4 in order to determine the degree of isomerization of hydrocarbons and to stop their irradiation in a timely manner. After finishing the processing, the raw material is cooled to the liquid phase and sent to storage capacity 5. 25 To determine the frequencies of hydrocarbon irradiation, preliminary laboratory studies are carried out by

HF) irradiation of samples of specific hydrocarbon raw materials to be processed, in order to identify the frequencies of maximum absorption of electromagnetic energy by hydrocarbons. o Example Mo1. A sample of gas condensate VKO-10 from the Samotlor field was used for processing. As a standard - gasoline A-76-DST. Electromagnetic irradiation was carried out for 30 minutes in the frequency range of (1, 10, 5) 210715 seconds" (Fig. 2). As shown by the chromatographic analysis of the processed sample, the component composition approached the reference one.

An example of Mo2. A sample of KS-10/20 gas condensate from the Samotlor deposit was used for processing. As a standard - gasoline A-76-DST. Irradiation regimes were maintained, as in example Mo1 (Fig. 3). As a result, the component composition of the processed sample approached the reference one. for Conclusion: to obtain irreversible modification of raw materials, it is necessary to act by electromagnetic irradiation at frequencies that correspond to the maximum absorption of electromagnetic energy.

The use of the claimed invention in industry provides effective processing of liquid hydrocarbons by electromagnetic radiation to obtain high-octane gasoline.

Claims (1)

The formula of the invention is the method of electromagnetic treatment of liquid hydrocarbons, which includes heating them to the vapor-gas state, 70 electromagnetic irradiation and cooling to the liquid state, which is characterized by the fact that the electromagnetic irradiation of hydrocarbons is carried out at frequencies characteristic for rocking molecules up to the breaking of their bonds, which correspond to frequencies of maximum absorption of electromagnetic energy by hydrocarbons. c schi 6) c IF) (ze) (Se) and - - and? -i (o) (95) 1 Ko) ime) 60 b5