RU2034315C1 - Equipment to form space charge in atmosphere - Google Patents

Abstract

FIELD: meteorology. SUBSTANCE: wire is distributed over area within circle having radius R ≅ R₀, where R₀ is radius of screening of electric field in atmosphere; Length L of wire is chosen from relationship L > 3R. Supports are different in height and difference of heights amounts to 1-400 m. EFFECT: expanded range of application.

Description

 The invention relates to electrical engineering, more specifically to electrostatics, and in particular to a device for creating a space charge in the atmosphere.

 A device for creating a space charge in the atmosphere, containing an electrode made in the form of a vertical column having at its upper end one or more points, connected to a source of high constant or ripple voltage [1] This device is designed to act on clouds to change them electrical activity or sedimentation ability by artificially introducing an uncompensated electric charge into the cloud.

 The device operates as follows.

 When a potential of one sign relative to the potential of the earth, equal to the value of the critical voltage, is applied to the electrode, a corona discharge occurs near the surface of the peaks, as a result of which an uncompensated space electric charge is created in the atmosphere in the immediate vicinity of the peaks, the sign of which coincides with the sign of the potential on the electrode. It is assumed that the transfer of ions of a space charge to the clouds is carried out under the influence of the electric forces of the charge itself, as well as ascending air currents.

 The productivity (space charge generation rate) of such a device is proportional to the length of the corona wire and the magnitude of the corona discharge current. Due to the limited length of the cusps and the small magnitude of the corona discharge current, the performance of the known device is small, the electric field created by the injected space charge in the atmosphere is weak, as a result of which electric forces practically do not participate in the transfer of ions from the device to the clouds. The effectiveness of the device as a result of this when exposed to clouds, especially to layered clouds, under which the upward flows are weak, is insufficient.

It is also known a device for creating a space charge in the atmosphere, containing one or more electrodes having the form of peaks connected to a source of high constant or ripple voltage, and an aircraft jet engine. In this case, the electrodes are installed in the jet engine nozzle [2]
When a potential exceeding the critical voltage is applied to the electrodes, a crown discharge arises around the surface of the points, initiating the appearance of a space charge in the space surrounding the points. The jet stream of the engine contributes to the removal of the space charge from the discharge gap into the atmosphere, which ensures an increase in the corona discharge current and, therefore, the productivity of the device.

 However, this device is characterized by high power consumption due to the use of an aircraft jet engine.

A device for creating a space charge in the atmosphere, containing an electrode made in the form of a wire, mounted on supports above the surface of the earth and connected to a voltage source, capable of providing on the wire the potential of one sign relative to the potential of the Earth, at least equal to the value of the critical voltage, at which a corona discharge occurs around the wire. The wire has a length of 6-7 km and to cover the largest possible area stretched in a straight line or has one turn of 90 ^° , or extended in the shape of the letter T [3]
A known device, which, due to the large length of the corona wire, is capable of creating a large-capacity space charge in the atmosphere near the wire along its entire length. However, the density of this space charge and, accordingly, the intensity of the electric field created by it in the atmosphere is small, which is a consequence of the suspension of the corona wire in a straight line over large distances, as a result of which the space charge is also distributed in the air over large areas. Due to the low electric field strength, the electric forces are insufficient to communicate with the ions the velocities ensuring their transfer from the device, especially when used to act on layered clouds. The estimated time for the ions to reach the cloud when using a known device is at least 2.5-3 hours.

 The basis of the invention is the task of developing a device for creating a space charge in the atmosphere with such a design of a corona electrode that would provide injection of a space charge having a density sufficient to create an electric field in the vicinity of the device in the atmosphere, capable of communicating to the injected ions the speeds of movement from the device to the clouds at least commensurate with the speed of movement of air masses in the upward flows.

 This problem is solved in that in a device for creating a space charge in the atmosphere containing an electrode made in the form of a wire, mounted on supports above the earth’s surface and connected to a voltage source capable of providing at the wire a potential of one sign relative to the earth’s potential, at least equal to the critical voltage at which a corona electrical discharge occurs around the wire, according to the invention, the length L of the wire distributed over an area within a circle with a radius R is selected and execution condition relation L ≥ 3 R.

It is advisable, taking into account the effect of shielding the electrostatic field by neutral matter in which this field propagates, place the wire on an area bounded by a circle of radius R = R _о , where R _{о is the} radius of shielding of the electrostatic field in the atmosphere. In this case, the wire can be distributed within the specified area in the form of many parallel lines.

 To further increase the density of the space charge, it is advisable to suspend the wire on uneven supports with a difference in the heights of the supports from 1 to 400 m.

 The device for creating a space charge in the atmosphere, made in accordance with the present invention, allows you to create in your vicinity in the atmosphere an electric field that can tell the injected ions the speed of movement from the installation to the clouds, comparable with the speed of movement of air masses. The use of an electric field for the transfer of ions to clouds makes it possible to effectively affect layered and cumulus clouds, and significantly reduce the time of ion transfer from the device to the cloud.

An embodiment of the device in which the corona wire is distributed in the form of parallel lines on an area bounded by a circle of radius RR _о , where R _{о is the} screening radius of the electrostatic field in the atmosphere, when choosing a sufficient length L of the wire, in particular through the use of differently high supports, it is possible to realize a space charge in atmosphere of maximum density with a relatively small size of the device. For the atmosphere at the surface of the earth, R is _about 400 m.

 A device for creating a space charge in the atmosphere contains an electrode made in the form of a wire suspended on supports at a height H above the surface of the earth in parallel lines located at a distance from one another. The drive is connected to a high-voltage terminal of a DC voltage source, mounted on the upper end of one of the supports.

 Under the wire at about half the height of the supports, grounded wires are stretched in the form of parallel lines located in the transverse direction with respect to the suspension lines of the wire.

 The length L of the wire distributed over an area within a circle with a radius R is selected from the condition that the relation R ≥ 3R is fulfilled. Moreover, the greater the length L of the wire is distributed within a given area, the greater the power of the space charge can be achieved. However, the length L of the wire in this circle cannot be made arbitrarily large, since according to a well-known pattern, two corona wires placed nearby have a mutual influence and, if they are parallel and the distance a between them is less than some limiting area and height H of the corona suspension wires, there are optimal lengths L and a suspension scheme at which the performance of the device is maximum.

 At the same time, it is known (see Pokhmelnykh LA Geosolar-cosmic relations in electrostatics with field Escreening by matter. // Geo-cosmic relations; the earth and its macro-environment, Pudoc, Wageningen, the Netherlands, p. 327-335) that the electrostatic field of a point charge sharply decreases with distance from this charge in the radial direction due to the presence of the screening effect of this field by neutral matter in which it exists.

When taking into account the screening of the electrostatic field by neutral matter, the field strength E in the atmosphere is determined by the gradient of the space charge density in the spherical volume with a radius equal to the distance D at which the uniform electrostatic field is attenuated by the air mass by a factor of l, from the relation
E 2 πκ ² (4πε _o ) ^-1 ρ ^-1 grad (q / ρ) (1) where κ 500 kg / m ² the screening constant;
ε _o 8.85 ˙ 10 ^-12 F / m dielectric constant;
ρ 1.3 kg / m ³ air mass density;
q space charge density of air.

The distance D, at which the field E is attenuated l times,
D 4 ˙ 10 ² m in the atmosphere near the earth the value is constant and equal to
D 4 ˙ 10 ² m (2)
From (1) and (2) it follows that for the space charge to form an extremely intense electric field in the atmosphere, it is sufficient to create maximum air charge densities over an area whose dimensions fit into a circle of radius R _about D 400 m. To achieve maximum values of the space charge density of air under conditions of radial outflow of ions, it is necessary to create the greatest possible productivity of the space charge over an area within a circle with a radius R _o ≅ 400 m, which is directly dependent on the length L of the corona wire .

Given the above, the length L of the wire when distributing it over an area bounded by a circle of radius R _about 400 m should be selected taking into account the ratio of 1200 m <L <30000 m.

 To increase the length L of the wire within the same limited area allows the option of using the wire suspension on uneven supports when choosing a difference in the heights of the supports from 1 to 400 m.In this case, the minimum height difference is determined by the natural sagging of the wire when it is suspended on uneven supports and is 1 m.

 A device for creating a space charge in the atmosphere according to the invention operates as follows.

After the potential is supplied to the wire from a high voltage source and a corona discharge occurs in the vicinity of the device, a volume charge is initiated, the sign of which coincides with the potential sign. The difference in the density of the space charge in the radial direction from the center of the device determines the gradient of the charge density, as a result of which, in accordance with dependence (1), a radial electric field is formed. Due to the choice of the length L of the wire and its distribution over a limited area, according to the invention, the space charge created by the device has a sufficiently high average density and is accompanied by an intense electric field. By choosing the length L of the wire in the range of 1200 m <L <30000 and distributing it over a circle area of radius R _about 400 m, it is possible to achieve a maximum space charge density in the atmosphere. The calculated value of the electric field strength E in this case reaches 10 ⁴ V / m in a radius of hundreds of meters. In this field, charge ions acquiring mobility K after their occurrence ≈ 10 ^-2 10 ^-3 cm ² / Bs move to the clouds mainly under the influence of electrostatic forces of mutual repulsion at speeds of more than 1 m / s and reach the lower boundary of the clouds in 10- 15 minutes. Moreover, in the zone bounded by a circle of radius R _about 400 m, each ion experiences to some extent the influence of the forces of mutual repulsion from all other ions in this zone, which helps to increase the efficiency of this variant of the device. When choosing the length L of the wire less than 3 R _about 1200 m in a circle area of radius R _{about the} density of the space charge initiated by the device is insufficient to ensure the movement of injected ions to the clouds. In the case of placing a wire of length L> 30,000 m in the same area with parallel lines, a reduction in the current of the corona charge takes place due to the mutual influence of parallel sections of this wire.

 When using differently high supports, the average distance between the wires per unit length increases, which leads to an additional increase in the corona current and, consequently, to an increase in the rate of generation of space charge in the atmosphere. As a result, an increase in the rate of charge generation occurs both due to an increase in the length L of the wire, and due to a decrease in their mutual influence.

 The electrical safety of the device is enhanced by a system of grounded wires stretched in parallel lines, located below the wire perpendicular to the wire feed lines, which allows the high-voltage circuit to be shorted to the ground before falling (for example, after an emergency break), the corona wire touches a person.

In addition, it should be noted that when the corona wire is suspended within a circle of radius R _about 400 m, the entire device can be provided with a protective fence, which will make it electrically safe for the public.

 To increase the electrical safety of the installation, a source of high constant or ripple voltage, consisting of a step-up transformer, a rectifier and other elements of a high-voltage circuit, is mounted on a support to which the corona wire is attached at a height of at least three meters. In this case, the housing of the high voltage source can be used as a connecting link between the corona wire and the support. In this case, the length of the connecting line, which is under high voltage, is minimal, and the greatest electrical safety.

 An experimental version of the device for creating a space charge in the atmosphere according to the invention was manufactured and tested.

The wire corona at a potential of 60 kV was distributed over an area of 150x100 m ² that fits into a circle of radius R 200 m. The length L of the wire was chosen equal to 900 m> 3R and the wire was suspended on supports in the form of six parallel lines at a height of H 7 m. The distance a between the lines were taken equal to 20 m, while the length of each line was 150 m. A high voltage source was fixed at the upper end of one of the supports and served as a connecting link between the wire and the support. Grounded wires in the form of six parallel lines were pulled across the lines of the corona wire at half height of the supports. During testing, the productivity of the installation was 4 ˙ 10 ^-3 C / s. Using the device, an effect was made on layered clouds. The scattering effect was observed ≈ 30 min after the onset of exposure.

 The device for creating a space charge in the atmosphere according to the invention is intended to act on atmospheric formations, in particular for the dispersion of clouds and fogs. The device can be used to protect agricultural land, airfields, settlements from the effects of excessive rainfall, thunderstorms and hail.

Claims (1)

A DEVICE FOR CREATING A VOLUME CHARGE IN THE ATMOSPHERE containing a corona electrode in the form of a wire mounted on supports and connected to a high voltage source, characterized in that the wire is distributed over an area within a circle with a radius R ≅ R ₀ , where R _{0 is the} radius of the electric field screening in the atmosphere, the wire length L is selected from the condition for the relation L ≥ 3R to be fulfilled, and the supports are made of different heights, and the difference in height is 1,400 m.