RU207565U1 - FUEL PROCESSING DEVICE - Google Patents

Abstract

The utility model relates to the field of mechanical engineering and can be used for pretreatment of liquid and gaseous fuels. The device for processing fuel contains a housing (1), fixed on the fuel line (2). The body (1) is filled with a monolithic ferromagnetic filler (3), in which an electromagnetic field exciter is placed, which surrounds the fuel line (2). The exciter consists of two antenna systems (4) located parallel to the longitudinal axis of the body (1) on opposite sides of the fuel line (2) and connected to a programmable frequency generator (5). An increase in the efficiency of fuel combustion is achieved due to the fact that an electromagnetic field exciter, located inside a monolithic ferromagnetic filler, consists of two antenna systems located parallel to the longitudinal axis of the body on opposite sides of the fuel line and connected to a programmable frequency generator. 4 c.p. cl, 4 dwg

Description

The utility model relates to the field of mechanical engineering, in particular, to devices for the pretreatment of liquid and gaseous fuels for internal combustion engines, gas turbine plants and the like.

The known design of the device for processing fuel, described in the patent of the Russian Federation No. 2190118 for the invention "Device for processing fuel" in the class F02M 27/04, declared on 06/21/2000 and published on 09/27/2002.

The above device contains a hollow body with a fuel line running inside it, a winding that encloses the fuel line and connects the ignition coil to the interrupter-distributor, while the hollow body is made of a non-metallic cage filled with granules of ferromagnetic material with low electrical conductivity and coercive force, coated with varnish for electrical insulation them apart.

The disadvantage of the known device for processing fuel is insufficient efficiency of fuel processing, leading to insufficiently efficient combustion of fuel.

The objective of the claimed utility model is to improve the efficiency of fuel combustion.

The technical result that allows solving this problem is the splitting of the fuel into smaller particles.

This result is achieved by:

1. In a device for processing fuel, comprising a hollow body for the passage of a fuel line inside it and located inside a body filled with a ferromagnetic filler, an electromagnetic field exciter surrounding the fuel line, according to a utility model, an electromagnetic field exciter located inside a monolithic ferromagnetic filler consists of two antenna systems located parallel to the longitudinal axis of the body on opposite sides of the fuel line and connected to a programmable frequency generator.

2. In the device for processing fuel according to claim 1, according to the utility model, the body of the device consists of two halves.

3. In the device for processing fuel according to claim 1, according to the utility model, each antenna system consists of two circuits.

4. In the device for processing fuel according to claim 1, according to the utility model, the antenna systems are made in the form of antenna arrays.

5. In the device for processing fuel according to claim 1, according to the utility model, the antenna systems are made in the form of half rings.

Implementation of an electromagnetic field exciter located inside a monolithic ferromagnetic filler, consisting of two antenna systems located parallel to the longitudinal axis of the body on opposite sides of the fuel line and connected to a programmable frequency generator, allows fuel to be split into smaller particles, and thereby increase the efficiency of fuel combustion ...

In this case, the body of the device can consist of two halves.

Moreover, each antenna system can consist of two circuits.

In this case, the antenna systems can be made in the form of antenna arrays.

In this case, the antenna systems can be made in the form of half rings.

The proposed set of essential features informs the claimed device for fuel processing new properties that allow solving the problem.

The claimed device for fuel processing has a novelty in comparison with the closest analogue, differing from it in that:

1.the exciter of the electromagnetic field, located inside a monolithic ferromagnetic filler, consists of two antenna systems located parallel to the longitudinal axis of the body on opposite sides of the fuel line and connected to a programmable frequency generator,

2.The device body consists of two halves,

3.Each antenna system consists of two circuits,

4.antenna systems are made in the form of antenna arrays,

5. antenna systems are made in the form of half rings.

The claimed utility model can find wide application in the field of mechanical engineering, in particular, in devices for pretreatment of liquid and gaseous fuels for internal combustion engines, gas turbines and the like, therefore it meets the criterion of "industrial applicability".

The claimed device for processing fuel is illustrated by the drawings, which are presented in:

FIG. 1. General view of the device for processing fuel with a partial cut.

FIG. 2. View of the device for processing fuel in cross section.

FIG. 3. View of antenna systems in expanded form.

FIG. 4. Scheme of a programmable frequency generator.

The device for processing fuel, shown in the drawings (see Fig. 1, 2, 3 and 4), contains a housing 1, fixed on the fuel line 2 and consisting of two fastened halves. The body 1 is filled with a monolithic ferromagnetic filler 3, in which an electromagnetic field exciter is placed, surrounding the fuel line 2 and having the ability to connect to an electrical power source.

The electromagnetic field exciter consists of two antenna systems 4 located parallel to the longitudinal axis of the housing 1 on opposite sides of the fuel line 2 and connected to a programmable frequency generator 5. Each antenna system 4 is made in the form of antenna arrays and consists of two semi-circular loops.

Monolithic ferromagnetic filler 3 contains 80% of purified and heat-treated iron oxide, 3% of gold and titanium, and 17% of a binder based on calcium and silicon.

The ICL8038 programmable frequency generator 5 (see Fig. 4) operates in the 90-900000 Hz range and is an integrated circuit from Intersil designed to generate sinusoidal, square and triangular signals based on bipolar monolithic technology using Schottky barrier diodes.

The inventive device for processing fuel operates as follows.

After the device is mounted on the fuel line, its connectors are connected to an electric power source (not shown in the drawing), which is used to complete the device for fuel processing. Depending on the characteristics of the fuel passing through the fuel line 2, the parameters of the signal of the programmable frequency generator 5 are set, which, with its signal, accordingly sets the parameters of the field of the antenna systems 4 and the time of its impact on the fuel passing through the fuel line.

After turning on the device with the "On / Off" key installed on the housing 1 (not shown in the drawing), the field of antenna systems 4 affects the passing fuel and optimizes its structure, contributing to the formation of smaller molecular compounds in the fuel, which subsequently leads to its more efficient and complete combustion, and ultimately to fuel savings of up to 10%, which is confirmed by studies of the work of prototypes.

The inventive device for processing fuel, in comparison with the closest analogue, makes it possible to increase the efficiency of fuel combustion by ensuring the splitting of the fuel into smaller particles.

In addition, the use of the proposed device makes it possible to reduce the negative impact of fuel combustion on the environment, since due to the more complete oxidation of the split fuel, the amount of harmful gases emitted into the atmosphere is significantly reduced.

Claims (5)

1. A device for processing fuel, containing a hollow body for the passage of a fuel line inside it and located inside the body filled with a ferromagnetic filler, an electromagnetic field exciter surrounding the fuel line, characterized in that the electromagnetic field exciter, located inside a monolithic ferromagnetic filler, consists of two antenna systems located parallel to the longitudinal axis of the housing on opposite sides of the fuel line and connected to a programmable frequency generator. 2. A device for processing fuel according to claim 1, characterized in that the body of the device consists of two halves. 3. A device for processing fuel according to claim 1, characterized in that each antenna system consists of two circuits. 4. A device for processing fuel according to claim 1, characterized in that the antenna systems are made in the form of antenna arrays. 5. The device for processing fuel according to claim 1, characterized in that the antenna systems are made in the form of half rings.

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