RU51679U1 - DEVICE FOR TREATMENT OF HYDROCARBON RAW MATERIALS - Google Patents

Abstract

The utility model relates to the field of processing of hydrocarbon raw materials, in particular, petroleum products, fuel, gas medium and can be used in various technological processes both in the processing of hydrocarbon raw materials in order to increase the yield of light oil products, and its preparation during combustion in various power plants in order to improving technical and economic indicators when working machines, mechanisms and other units using jet, turboprop and other types of internal combustion engines. It is used in resource-saving technologies. Designed to improve the reliability and efficiency of power plants, ensuring environmental cleanliness. The task of creating a useful model is the preparation of hydrocarbon raw materials, fuel for combustion or supply to power plants in order to increase the economic and environmental effect. The technical result consists in improving the quality of processing of hydrocarbon raw materials, in particular, fuel. The device consists of a camera body 1, a camera cover 2, a gasket 3, an electrode 4, an inlet pipe 5, butt elements (for example, flanges) 6, fuel pipes 7, a connection section 8 with a fuel pipe of an assembly, for example, a boiler; in addition, the device contains an electronic unit EB, has the radii R1, R2, respectively, of the electrode and the camera.

Description

The utility model relates to the field of processing of hydrocarbon raw materials, in particular, petroleum products, fuel, gas medium and can be used in various technological processes both in the processing of hydrocarbon raw materials in order to increase the yield of light oil products, and its preparation during combustion in various power plants in order to improving technical and economic indicators when working machines, mechanisms and other units using jet, turboprop and other types of internal combustion engines.

It is used in resource-saving technologies. Designed to improve the reliability and efficiency of power plants, ensuring environmental cleanliness.

The closest analogue of the device for processing hydrocarbon raw materials by electric current contains a housing, a chamber, an electronic unit and an electrode (1).

The task of creating a useful model is the preparation of hydrocarbon raw materials for combustion or supply to power plants in order to increase the economic and environmental effect.

The technical result is to improve the quality of processing

hydrocarbon feedstocks, in particular fuel. For this, a device for processing hydrocarbon raw materials by electric current is proposed, including a housing, a camera, an electronic unit and an electrode, characterized in that it is made with closed and open ends, while the closed end is made with a lid and a dielectric gasket serving as a plug, the open end has the connection section through the butt element with the fuel line of the unit, and the cover has an opening for the cable to pass from the electronic unit to the electrode. The device is characterized in that the chamber and the electrode are made of circular cross section, while the ratio of the radii of the electrode and the chamber is not more than 1: 2.

The device is characterized in that the difference between the inner radius of the chamber and the radius of the electrode must be equal to or greater than the radius of the fuel line of the unit.

The device is characterized in that the working cross-sectional area of the chamber is equal to or not less than the cross-sectional area of the fuel line.

The device is characterized in that the time of exposure of the current to the hydrocarbon feed is determined by the transit time of the feed along the electrode inside the chamber.

The device is characterized in that the magnitude of the current exposure to raw materials is not more than 0.5 mA.

The device is characterized in that the length of the electrode L ₂ is determined by the ratio of the passage of the volume of hydrocarbon feed through the cross-sectional area of the chamber without taking into account the cross-sectional area of the electrode, that is, through the working area of the chamber, during the processing of the feed.

The device is characterized in that a wire with a diameter of 4-6 mm with a winding pitch of 20-30 mm is evenly wound on the electrode and electrically connected to the electrode, and the gap between the inner wall of the chamber and the wire wound on the electrode is within 15-25 mm.

The device is characterized in that the connection section with the fuel line of the unit is made in the form of a cone facing the fuel line, while the diameter of the narrow part of this cone is equal to the diameter of the fuel line.

The device is characterized in that the contact of the connection of the electrode with the cable of the electronic unit is protected by a cover.

The device is illustrated by drawings, which depict:

Figure 1 - General diagram of a device for processing hydrocarbon raw materials.

Figure 2 - General view of the device with a camera.

Figure 3 is a longitudinal section of the camera.

Figure 4 - Section aa in figure 2.

Figure 5 - Waveform generated by the electronic unit (EB). The device consists of a camera body 1, a camera cover 2, a gasket 3, an electrode 4, an inlet pipe 5, butt elements (for example, flanges) 6, fuel pipes 7, a connection section 8 with a fuel pipe of an assembly, for example, a boiler; in addition, the device contains an electronic unit EB, has the radii R1, R2, respectively, of the electrode and the camera.

The housing of the chamber 1 is made of metal, is grounded with the housing of the electronic electronic unit. It is installed in the section of the fuel line, as close as possible to the boiler furnace. Fastened with butt elements, for example,

metal flanges, or in any other way, but providing the required reliability of the connection.

The lid 2 of the camera is made of metal, has a hole through which the cable from the electronic unit passes. It fixes the dielectric gasket 3. In addition, it protects against accidental contact with the electrode terminal to which the control voltage is applied.

The electrode 4 is made of metal. In the case of a fuel oil treatment chamber, a wire is spirally wound onto this electrode, the wire diameter is 4-6 mm (not shown in the drawing). The wire is wound evenly, the winding pitch is 20-30 mm. The wire is designed to impart a rotational movement to the raw materials, for example, fuel oil, and the emission of electrons that bombard the raw material molecules.

The gasket 3 is made of dielectric material, holds the rod of the electrode in the center of the chamber and acts as a plug.

Thus, the device is made with closed and open ends, while the closed end is made with a cover 2 and a dielectric gasket 3, which serves as a plug, and the open end has a connection section 8 through the butt member 6 with the fuel line of the unit.

A device for processing hydrocarbon raw materials as follows. The raw material enters through the upper pipe 5 into the processing chamber. Passing along the electrode 4, the raw material is exposed to a current of low power. Further, the processed raw material goes directly to the combustion chamber or furnace. Since the processed raw material, flowing through the fuel line, comes into contact with its metal wall and gives off part of the energy received, the processing chamber must be installed as close as possible to the place of combustion.

An electric signal of low power is supplied to the electrode 4, but sufficient to affect the vibration of the molecules and their intermolecular bonds. In addition, as a result of this action, water molecules (H ₂ O), which are present in the fuel, are split into oxygen atoms (O ₂ ), hydrogen (H). Further, this enriched mixture with free atoms enters the combustion plants. Thus, a greater number of molecules in the fuel volume are involved in the combustion process. This fact leads to the fact that the temperature of combustion increases. As a result of an increase in the combustion temperature, the amount of soot, smoke and carbon monoxide formation is reduced, that is, the environmental performance of the unit as a whole is improved. AT

in turn, this improvement in environmental performance indicates a saving in raw materials. As a result, a smaller amount of raw material will be required to complete a specific job.

The utility model can be illustrated by the example of processing fuel oil for a commercially available boiler DE 25, the maximum consumption of fuel oil of which is 25 tons per day. Constructive calculations show.

The diameter of the fuel line through which gravity oil is fed into the boiler by gravity or pressure, D - 25 mm. In order to reduce the resistance created by the electrode to the flow of fuel oil through the fuel line into the boiler, the inner diameter of the chamber is 51 mm.

- The inner radius of the chamber R ₂ = 22.5 mm;

- The radius of the electrode R ₁ = 11 mm

The gap between the inner radius of the chamber (R ₂ ) and the radius of the electrode (R ₁ ) must be between 15 and 25 mm.

The useful area of the camera is: S = πR ² = 3.14 × (R ₂ -R ₁ ) ² = 3.14 × (11.5) ² = 415.265 (mm ² )

The exposure time of the current to fuel oil is determined by the time it passes along the electrode inside the chamber, which is experimentally determined equal to 0.3 seconds.

If we take into account that per hour (3600 sec) on average fuel oil is consumed in a volume of V ₁ = 1 m ³ = 10 ⁹ mm ³ , then to calculate the electrode length L ₂ mm, it is necessary to calculate the chamber volume V ₂ from the following ratio:

From V ₁ = pV ₂ , we find the chamber volume V ₂ = V ₁ / p = 1,000,000,000 mm ³ : 12,000 = 83053 mm ³

From V ₂ = L ₂ S ₂ , where L ₂ is the length of the electrode, S ₂ is the cross-sectional area of the chamber without taking into account the cross-sectional area of the electrode. Find the length of the electrode:

L ₂ = V ₂ : S ₂ = 83053 mm ³ : 415.265 mm ² = 200 mm

That is, for processing fuel oil for burning, it is necessary to create a chamber with the following parameters:

- The inner radius of the chamber R ₂ = 22.5 mm;

- The length of the chamber L ₁ should be such that an electrode is placed in the chamber, the length of which L ₂ = 200 mm;

- The radius of the electrode R ₁ = 11 mm

Electrical calculations.

The current value, which is determined practically, is 0.5 mA.

If we take into account that the resistance of the flowing fuel oil in the treatment chamber between the internal electrode and its body is R = 150 k Ω, then, according to Ohm's law, to create a current of the above value, it is necessary to apply a voltage equal to:

U = IR = 0.5 mA × 150 k Ω = 0.5 × 10 ^-3 × 150 × 10 ₃ = 75 v

The voltage is sinusoidal, the frequency of which is 50 Hz (see figure 5 is a graph of the input electrical signal). From the description and drawings it can be seen that the device is characterized in that the chamber and the electrode are made of circular cross section, while the ratio of the radii of the electrode and the chamber is not more than 1: 2.

The device is characterized in that the difference between the inner radius of the chamber and the radius of the electrode must be equal to or greater than the radius of the fuel line of the unit.

The device is characterized in that the working cross-sectional area of the chamber is equal to or not less than the cross-sectional area of the fuel line. The device is characterized in that the time that the current affects the feed is determined by the time the fuel travels along the electrode inside the chamber. The device is characterized in that the magnitude of the current exposure to raw materials is not more than 0.5 mA

The device is characterized in that the length of the electrode L ₂ is determined by the ratio of the passage of the volume of raw materials through the cross-sectional area of the chamber without taking into account the cross-sectional area of the electrode, that is, through the working area of the chamber, during fuel processing.

The device is characterized in that a wire with a diameter of 4-6 mm with a winding pitch of 20-30 mm is evenly wound on the electrode and electrically connected to the electrode, and the gap between the inner wall of the chamber and the wire wound on the electrode is within 15-25 mm.

The device can be made with the following parameters and characteristics.

- Supply voltage, V 220. - Frequency Hz fifty. - Power consumption, W to 20. - Weight, kg up to 7. - Relative humidity,% up to 98.

- Range of operating temperatures, ° C:

- processing chambers from +10 to +180; - power supply from -40 to +80. - The maximum fuel pressure in the processing chamber, kg / cm ² up to 30. - Reduced fuel consumption,% not less than 5. - Improving the gross efficiency of the boiler installation,% 2-6.

- Improves flue gas analysis.

- Reduces heat loss with flue gases.

In addition, this device has proven itself when using:

- fuel oil emulsions;

- low-quality fuel oil, with a high water content, as well as fuel oil for long-term storage.

The source of information.

1. RF patent No. 2215172, application No. 2002118245 from 09.07.2002.

Claims (11)

1. A device for processing hydrocarbon raw materials by electric current, including a housing, a chamber, an electronic unit and an electrode, characterized in that it is made with closed and open ends, while the closed end is made with a lid and a dielectric gasket serving as a plug, the open end has a section connection through a butt element to the fuel line of the unit, and the lid has an opening for the cable to pass from the electronic unit to the electrode. 2. The device according to claim 1, characterized in that the chamber and the electrode are made of circular cross section, while the ratio of the radii of the electrode and the chamber is not more than 1: 2. 3. The device according to claim 1, characterized in that the difference between the inner radius of the chamber and the radius of the electrode must be equal to or greater than the radius of the fuel line of the unit. 4. The device according to claim 1, characterized in that the working cross-sectional area of the chamber is equal to or not less than the cross-sectional area of the fuel line. 5. The device according to claim 1, characterized in that the exposure time of the current to the raw material is determined by the passage of fuel along the electrode inside the chamber. 6. The device according to claim 1, characterized in that the magnitude of the current exposure to raw materials is not more than 0.5 mA. 7. The device according to claim 1, characterized in that the length of the electrode L ₂ is determined by the ratio of the passage of the volume of raw materials through the cross-sectional area of the chamber without taking into account the cross-sectional area of the electrode, i.e. through the working area of the chamber, during the processing of raw materials. 8. The device according to claim 1, characterized in that the wire is evenly wound on the electrode with a diameter of 4-6 mm with a winding pitch of 20-30 mm and is electrically connected to the electrode. 9. The device according to claim 8, characterized in that the gap between the inner wall of the chamber and the wire wound on the electrode is within 15-25 mm. 10. The device according to claim 1, characterized in that the connection section with the fuel line is made in the form of a cone, the diameter of the narrow part of this cone is equal to the diameter of the fuel line. 11. The device according to claim 1, characterized in that the section of the connection to the fuel line of the unit is made in the form of a cone facing the fuel line, while the diameter of the narrow part of this cone is equal to the diameter of the fuel line.