RU44151U1 - FUEL PROCESSING DEVICE - Google Patents

Abstract

Application: Preparation of fuel for burning in various power plants. Effect: Reducing the content of harmful components in exhaust gases, reducing fuel consumption. The essence of the utility model: A device for processing fuel contains a flow-through housing 1 with inlet 2 and exhaust 3 channels and an electrode 4 located in the housing 1 along its axis. Housing 1 is made of an electrically conductive material with the possibility of performing the function of a second electrode and has three chambers. The inlet 6 in the direction of movement of the fuel chamber is separated from the middle 7 chamber by a dielectric partition 9 with through holes 10, and the middle chamber 7 is separated from the output 8 in the direction of fuel movement of the chamber by a strainer 11. The inlet channel 2 is made in the inlet chamber 6, and the exhaust 3 in the output 8. The electrode 4 is placed in the input 6 and middle chamber 7, and its surface located in the middle chamber 7 is provided with a dielectric coating 12. The inner surface of the wall of the middle chamber 7 is provided with a coating 13 that performs the function of of the desired magnet, and ferromagnetic balls 14. are placed in the cavity of this chamber. The output chamber 8 of the housing 1 can be removable. The electrode 4 and the housing 1 can be connected to a high-frequency power supply 5.

Description

The utility model relates to the field of engineering and is intended to prepare fuel for combustion in various power plants.

A device is known for magnetic fuel processing, comprising a flow housing with spherical permanent magnets located therein. The housing is divided by an expansion chamber into the inlet and outlet chambers. The spherical permanent magnets located in the inlet and outlet flow chambers have different magnetic induction, and the induction of the magnets of the inlet chamber is less than the induction of the magnets of the outlet chamber (see RF Clause No. 2115010 according to CL F 02 M 27/04, statement 25.10.96, publ. 07/10/98 "Device for magnetic processing of liquid").

The disadvantage of this device is the low efficiency of fuel processing, due to the fact that the fuel is exposed to only a magnetic field.

The closest in technical essence is the selected device for processing fuel, selected as a prototype, comprising a flow-through housing with inlet and outlet channels and an electrode located in the housing along its axis. The housing is made of electrically conductive material with the possibility of performing the functions of the second electrode. A groove in the form of a spiral is made on the electrode, located along the longitudinal axis, at least on a part of the electrode surface (see Cl. RF No. 2153594, class F 02 M 27/04, F 02 B 51/04, application form 28.07.99 , published on July 27, 2000, A Device for Processing Fuel.

The disadvantage of this device is the low quality of fuel processing, which is due to the fact that the activation of fuel occurs only under the influence of electric voltage.

The objective of this utility model is to improve the quality of fuel processing.

The technical result obtained by the implementation of the utility model is to reduce the content of harmful components in the exhaust gases, reducing fuel consumption.

This problem is solved due to the fact that in the known device for processing fuel, containing a flowing housing with inlet and outlet channels and an electrode located in the housing along its axis, the housing being made of electrically conductive material with the possibility of performing the function of the second electrode, according to the utility model, the casing is made of three chambers, and the inlet chamber in the direction of fuel movement is separated from the middle chamber by a dielectric partition with through holes, and the middle chamber is separated from the exit in the direction of movement of the fuel of the chamber by a mesh filter, the inlet channel is made in the inlet chamber, and the exhaust channel is in the outlet chamber, the electrode is placed in the inlet and middle chamber, and its surface located in the middle chamber is provided with a dielectric coating, the inner surface of the wall of the middle chamber is provided with a coating, performing the function of a permanent magnet, and ferromagnetic balls are placed in the cavity of this chamber.

The output camera of the device housing can be made removable.

The electrode and the housing of the device can be connected to a high-frequency power source.

Studies conducted on the sources of patent and scientific and technical information showed that the claimed device is unknown, i.e. meets the criterion of novelty.

The device can be manufactured at any enterprise specializing in this industry, as this requires well-known

materials and standard equipment, and is widely used in mechanical engineering, i.e. is industrially applicable.

The inventive device allows you to subject the fuel to both polarization under the influence of electric voltage, and magnetohydrodynamic dispersion, carried out when the fuel passes through a chamber filled with ferromagnetic balls.

This allows you to reduce the content of harmful components in the exhaust gases, in particular, to reduce the carbon monoxide CO content, to reduce fuel consumption during its combustion in various power plants.

The utility model is illustrated by the drawing, which shows a longitudinal section of the proposed device (the arrow shows the direction of movement of the fuel).

A device for processing fuel contains a flowing cylindrical housing 1 with inlet 2 and outlet 3 channels. An electrode 4 is located in the housing 1 along its axis. The housing 1 is made of an electrically conductive material, for example, high carbon steel. The electrode 4 is made of copper or silver and is installed in the housing 1 so that it is not electrically connected (insulated) with the housing 1. The electrode 4 and the housing 1 are supplied with voltage from the power supply 5. The housing 1 is made three-chamber so that in its cavity The direction of movement of the fuel formed input 6, middle 7 and output 8 of the camera. The inlet channel 2 is made in the inlet chamber 6, and the outlet channel 3 is in the outlet chamber 8. The inlet chamber 6 is separated from the middle chamber 7 by a dielectric partition 9 with through holes 10. The middle chamber 7 is separated from the outlet chamber 8 by a strainer 11. The surface of the electrode 4 located in the middle chamber 7 is provided with a dielectric coating 12, for example of plastic. In the middle chamber 7 coaxially relative to the electrode 4 close to the inner surface of the wall

The chamber 7 is equipped with a permanent magnet 13 of a ring shape, forming a magnetic coating on the inner surface of the wall of the middle chamber 7. The cavity of the middle chamber 7 is filled with ferromagnetic balls 14. The output chamber 8 can be removable and provided with a screw-off end cover 15.

The device operates as follows.

Fuel enters through the inlet channel 2 into the inlet chamber 6 of the housing 1, where it is activated due to its polarization under the influence of electric voltage. Then, the fuel enters through the through holes 10 of the dielectric partition 9 into the middle chamber 7, where the process of simultaneous magnetic processing of the fuel and its dispersion during flow through the layer of ferromagnetic balls 14 filling the cavity of the middle chamber 7 takes place. Next, the fuel enters through the outlet chamber 8 to the exhaust channel 3.

Thus, simultaneous polarization of the fuel under the influence of electric voltage and its magnetohydrodynamic dispersion are achieved. Tests of the inventive device in comparison with the prototype showed a decrease in the content of carbon monoxide CO in the exhaust gas, as well as a reduction in fuel consumption during its combustion in an internal combustion engine from 30 to 45%. The tests also showed an increase in the octane number by 8 units and the possibility, after processing in the inventive device, to use any liquid fuel (even diesel) with a water content of up to 20%.

Claims (3)

1. A device for processing fuel, comprising a flowing housing with inlet and outlet channels and an electrode located in the housing along its axis, the housing being made of electrically conductive material with the possibility of performing the function of a second electrode, characterized in that the housing is three-chambered, the input in the direction the fuel chamber is separated from the middle chamber by a dielectric partition with through holes, and the middle chamber is separated from the outlet by the screen filter m, the inlet channel is made in the inlet chamber, and the outlet channel is in the outlet chamber, the electrode is placed in the inlet and middle chamber, and its surface located in the middle chamber is provided with a dielectric coating, the inner surface of the wall of the middle chamber is provided with a coating that acts as a permanent magnet, and ferromagnetic balls are placed in the cavity of this chamber. 2. The device according to claim 1, characterized in that the output camera of the housing is removable. 3. The device according to claim 1, characterized in that the electrode and the housing are connected to a high-frequency power source.