BG64926B1 - Magnetic fluid activator - Google Patents

Abstract

The magnetic fluid activator can be used for the activation of fuels for internal combustion diesel engines and heaters, which improves the combustion process and reduces the separation of the injurious products. It can also be applied for cleaning of fluids and in the treatment of physiological and nutritive solutions. The activator comprises at least two high intensity permanent magnets (1) in the form of parallelepiped with polarization in respect of the two largest walls, turned with their different poles to each other. Between the magnets a pipeline (2) is fitted made of paramagnetic material. In the pipeline (2), by means of a spiral element (5), a steel cylindrical body (4) is fitted. The block, on its external side, is engaged longitudinally with a steel strip (6). In case of changing the direction of the axes of the magnetic moments of the electrons under the effect of a magnetic field, the orientation of the fluid molecules changes. This results in structural changes which cause qualitative changes.

Description

(54) MAGNETIC FLUID ACTIVATOR

Technical field

The invention relates to a magnetic fluid activator, which can be used to improve the quality of fuels for internal combustion engines and heaters, fluid purification, treatment of physiological and nutrient solutions.

BACKGROUND OF THE INVENTION

A magnetic actuator is known, which consists of a housing of non-magnetic material, in which at least two rows of permanent magnets are placed facing their poles with each other across a central air gap with a rectangular section, with side gaps formed between the rows and the housing. The constituent permanent magnets are made of conventional ferromagnetic materials. Each row contains at least seven permanent magnets / 1 /.

A disadvantage of the magnetic activator is the reduced fuel processing efficiency due to the low intensity of the ferromagnetic materials used. There is a significant scattered magnetic field around the activator. The fuel that flows through the different channels of the magnetic actuator is fed to a different degree of processing.

Another apparatus for treating hydrocarbon fuels with an intense magnetic field for enhancing combustion efficiency consisting of at least two permanent magnets, each in the form of a parallelepiped, is known. The magnets are polarized C / S with respect to the largest walls. Each of the magnets is placed in a box of non-magnetic material so that the magnets are placed around a pipeline with their poles of the same name. On one side, the boxes have cutouts to fit into the pipeline. There is a system for fixing and securing the two boxes around the pipeline / 2 /.

The disadvantage of the apparatus is that when placed on a pipeline made of magnetic material, the magnetic field is concentrated in the pipeline walls and the efficiency decreases sharply. A scattered magnetic field exists around the apparatus and is of high intensity. The efficiency of the apparatus is highly dependent on the flow rate of the fuel.

It is an object of the invention

It is an object of the invention to provide a magnetic fluid activator which avoids the aforementioned disadvantages, which has a high activation efficiency which acts on the structure of the fluid at the molecular level and qualitatively improves its characteristics.

SUMMARY OF THE INVENTION

The problem is solved by a magnetic fluid activator, which consists of at least two permanent magnets, with a high parallel-shaped pipeline of greater length than width and having polarization C / S with respect to the two largest walls facing is the poles of the same name to each other, the rectangular gap between them being determined by the installed central pipeline is a circular section of paramagnetic material along which the fluid flows. Mechanical stabilization of the structure is obtained by filling the rest of the gap with adhesive non-magnetic material to form a monolithic block. A cylindrical body of low carbon steel is mounted inside the pipeline, which is in the field of intense field, which is fixed to the walls of the pipeline with a helical element in the form of a helical line, 7 - 7.5 turns clockwise. The entire monolithic block of permanent magnets and the installed pipeline is covered in length, tightly on the surface with a low carbon steel strip.

The advantages of the magnetic fluid activator according to the invention are: a high degree of activation, which is determined by the use of high-intensity magnetic materials and the elements used to create a field are of high intensity in the pipeline; high efficiency achieved by the introduction of a rotary component that modulates the intensity and polarity of the field in terms of flow.

Description of the attached figures

Figure 1 is a general perspective view of a magnetic fluid activator.

Figure 2 is a longitudinal sectional view of a magnetic fluid activator.

Figure 3 is a cross-sectional view on AA of a magnetic fluid activator.

An example of an embodiment of the invention

According to the drawings, the magnetic fluid activator consists of at least two high-intensity permanent magnets 1, in the form of a parallelepiped, which has a longer length than width, with polarization with respect to the two largest walls. The magnets are oriented by their different poles, one to the other, through a rectangular gap 3, which is determined by the mounted central pipeline with a circular section 2, made of paramagnetic material, which flows the fluid. The gap 3 around the pipeline 2 is filled with adhesive non-magnetic material. Inside the pipeline 2, in the field of intense magnetic field, a low carbon steel cylindrical body 5 is mounted, which in turn is secured to the walls of the pipeline 2 by a helical element 5, in the form of a screw line making 7-7, 5 turns clockwise. The whole block is enclosed in length, tightly on the surface with a strip 6 made of low carbon steel.

The magnetic fluid activator works as follows:

The fluid flow that flows through the magnetic activator is subjected to an intense magnetic field that is concentrated in the volume of the pipeline. The configuration of the field is determined by the two permanent high-strength magnets facing their different poles to each other, the cylindrical body of low carbon steel mounted in the pipeline, and to a lesser extent by the pipeline itself, which is made of paramagnetic material. The surface of the block is tightly covered with a low carbon steel strip which closes the magnetic flux from the outside, influences the configuration of the field and significantly reduces the scattered magnetic field.

The effect of the magnetic field with respect to the flow is modulated by a rotational component created by the rotation of the flow. This rotation is the result of the flow of flow between the coil element, the walls of the pipeline and the cylindrical body. Fluid flow is subjected to multiple (7-fold) changes in the intensity and polarity of the field relative to the flow, which create turbulence at the molecular level, thereby weakening the bonds in the original chaotic structure.

The applied high intensity magnetic field orientates the axes of the magnetic moments of the electrons in the envelope of the fluid atoms in the direction of the field. This changes the orientation of the molecules and leads to structural changes, which in turn cause qualitative changes.

The magnetic fluid activator was applied to activate fuels for internal combustion engines, yielding the following results: reduction of fuel consumption by 15 to 25%, reduction of emission, harmful gases and other combustion products by 40 to 50 %, a noticeable increase in intermediate torque was observed.

Claims

Claims (1)

A magnetic fluid activator consisting of at least two permanent parallelepiped-shaped magnets of greater length than width and having north / south polarities with respect to the two largest walls facing each other with poles of the same name to each other through a central rectangular cross section into which a circular cross section pipeline is installed, characterized in that the permanent magnets (1) are made of high-tension magnetic materials and the conduit (2) in the central gap (3) is filled with paramagnes n material, with a low carbon steel cylindrical body (4) mounted inside the pipeline (2), which is secured to the pipeline walls (2) with a helical element (5) in the form of a screw line making at least seven revolutions clockwise, in the field of the intense magnetic field, and the entire magnet block and the pipeline mounted are covered tightly along the surface 5 by a low carbon steel strip (6).