RU2124288C1 - Fog and clouds dissipating apparatus - Google Patents

Abstract

FIELD: equipment for creating favorable atmospheric conditions for transport and agriculture. SUBSTANCE: apparatus has auxiliary electric drives and earthed current-conductive grids and wires, which may be oriented in parallel with current-conductive grid to increase concentration of electrically charged particles in atmospheric body. Such construction intensifies fog and clouds dissipation. EFFECT: increased efficiency and simplified construction. 4 cl, 1 dwg

Description

 The invention relates to the field of hydrometeorology and is intended to be used as a means of influencing atmospheric formations, to solve the problem of reducing or, if possible, eliminating the negative environmental impact on the operation of land, air transport, seaports, achieving favorable conditions for agricultural land.

 It is based on the use of electricity, namely, the generation of electrically charged particles by corona wires, which leads to a disturbance in the phase equilibrium between liquid and vaporous moisture, as well as the creation of a space charge in the atmosphere, the electric field of which contributes to the development of processes of changing the structure of fine moisture in the atmosphere.

 The analysis of the prior art was carried out according to the classes of IPC A 01 G 15/00, E 01 H 13/00, H 05 F 3/00 and other sources of information.

 From the achieved level of technology in the considered field, inventions are known that can introduce wires with a small radius of surface curvature into the atmosphere layers by applying electric voltage to them from a current source (see, for example, copyright certificate N 71260, IPC A 01 G 15/00, published July 31. 1948, US patent N 3456880, IPC A 01 G 15/00, E 01 H 13/00, published July 22, 1969).

 The essence of technical solutions is to lift the corona wire to the level of being saturated with vapor in the atmosphere with an aerostat or airplane, with the end result being the formation of raindrops by ionizing the surrounding air and creating a space charge with a strong electric field.

 A significant drawback of these devices is associated with the need to raise the corona wire to a sufficiently high height, and this, of course, leads to unjustified expenses of fuel and energy resources, and is not always feasible due to weather conditions that prevent the balloon from flying or taking off the aircraft at the right time.

 These shortcomings are completely absent in devices that provide for the stationary placement of corona wires above the surface of the earth where periodic impact on atmospheric formations is necessary.

 Known devices located on the earth's surface, one of which implements a method of causing rain (see USSR author's certificate N 29675, IPC A 01 G 15/00, published in 1948, based on the use of an ionized air stream obtained by blowing an ionizing electrode, and the other (see published application of Germany N 1005304, IPC E 01 H 13/00 1967) is designed to destroy the fog by blowing air drawn from the atmosphere through an electric field. Both devices facilitate the propagation of electrically charged parts q up, accelerating the process of precipitation from cloud cover or fog deposition.

 However, they do not provide means for creating the air stream itself, which requires the development of special systems that complicate and increase the cost of their design.

 It is also known a device containing one or more electrodes in the form of peaks connected to a current source, and an aircraft jet engine. The electrodes are installed directly in the jet engine nozzle (see USSR author's certificate N 446955, class H 05 F 3/00, published in 1973). When a potential of at least equal to or greater than the critical voltage is applied to the electrodes, a corona discharge arises around the surface of the points of the electrodes. The jet stream of the engine contributes to the removal of electrically charged particles into the atmosphere, which ensures an increase in corona discharge current and, consequently, the productivity of the device.

 However, the device is characterized by high energy consumption due to the use of an aircraft engine and requires significant operating costs in connection with the organization and production of fuel for the engine, as well as its constant delivery to the location of the device.

 A device is known that contains an electrode made in the form of a vertical column having several peaks at its upper end connected to a current source (see Lukomski H. Preliminarystudies on electrification of the atmosphere Acta Geophysica Polonica. 1960. VIII N 2 p. 94 - 106 )

 It is intended to act on clouds to solve the problem of changing their electrical activity or sediment-forming ability by artificially introducing an uncompensated electric charge into the cloud.

 The performance of the device in question is proportional to the length of the corona section of the electrode and the magnitude of the corona discharge current. Due to the limited length of the cusps or cusps and the small magnitude of the corona discharge current, the performance of this device is small, the electric field created by the injected space charge in the atmosphere is thus weak, as a result of which electric forces practically do not participate in the transfer of ions from the device to the clouds.

 Therefore, the effectiveness of the device when exposed to fog or cloudiness is insufficient.

 A device for dispersing fog and clouds is known that contains a wire with a small radius of curvature of the surface that is designed to generate a corona discharge and is connected to a current source and mounted on insulators of supports (see "Journal of Geophysical Research", Cambridge, Massachusetts, March 1962, t. 67, pp. 1073-1082).

 Partially, the characteristics of this device and the results of experiments conducted by American researchers have been published in the domestic technical literature (see L. G. Kachurin, “Physical Foundations of Impact on Atmospheric Formations,” Gidrometeoizdat. Leningrad, 1978, pp. 287–293).

 To obtain electrically charged particles that create a space charge in the atmosphere, we used a thin electrified wire with a diameter of 0.04 cm stainless steel. The length of the corona wire was several kilometers (14 km and 45 km), due to which a space charge appeared in the space adjacent to the wire along its entire length. But due to dispersal over a large area, the space charge had a low electric field strength and, therefore, had insufficient effect on atmospheric formations, as evidenced by experimental tests, during which, as a result of appropriate measurements, the effect of the space charge formed by electrically was established charged particles from corona wires on only 18% of the clouds (see V. Bradley, R. Semonin "The effect of space charge on electric atmospheric atmospheres, cloud charge, and precipitation "Journal of Geophysical Research, ed. Arthur D. Little., INC., Cambridge, Mass., 1969, vol. 74, No. 8, April 15).

где
σ - плотность воздуха, отнесенная к плотности воздуха при нормальных условиях как к единице;
r - радиус кривизны поверхности провода;
h - расстояние между проводом и заземленной поверхностью.It should be noted that for ignition of a corona discharge, a voltage from a current source must be supplied to the wire at least equal to the critical voltage U _k , determined (see, for example, N.A. Kaptsov "Electronics", GITL, Moscow, 1956 , p. 367, 368) by the formula

Where
σ is the density of air referred to the density of air under normal conditions as a unit;
r is the radius of curvature of the surface of the wire;
h is the distance between the wire and the grounded surface.

It follows that the smaller the distance h, the lower the critical ignition voltage of the corona, all other things being equal. When an appropriate voltage is applied to the wire, the electric field lines are thickened towards the wire, and when the field strength near the wire reaches enough to ignite the crown, a glow appears around it, which is a consequence of the generation of electrically charged particles by the corona wire, and the current in the wire can be determined (see N.A. Kaptsov "Electronics", GITL, Moscow, 1956, p. 372, formula 105.10) according to the following relation
j = 0.78K (U - U _k ) U / H ² ln (2H / r)
for a wire hanging above the ground,
Where
r is the radius of the wire;
H is the distance from the axis of the wire to the ground, as a body with electric potential;
U is the voltage across the wire;
U _k is the ignition voltage of the corona;
K is the mobility of ions in the atmosphere.

 Thus, the intensity of the generation of electrically charged particles is approximately inversely proportional to the square of the distance of the corona wire to the Earth's surface.

 One of the disadvantages of the device designed to affect atmospheric formations (see, for example, L.G. Kachurin "Physical fundamentals of exposure to atmospheric formations", Gidrometeoizdat, Leningrad, 1978, pp. 287 - 293), adopted for the prototype of the proposed of the invention and based on the use of a corona wire mounted on an insulator of supports of a corona wire connected to a current source, however, as for other similar devices, there is a significant dependence of the magnitude of the corona discharge current around the wire, from the distance between the wire and the surface of the Earth, which is practically, as indicated above, inversely proportional to the square of the specified distance. Given that the magnitude of the current of the corona charge determines the intensity of generation of electrically charged particles, and therefore, the rate of formation of the space charge, the height of the supports is preferably kept as low as possible. But, in this case, limiting the height of the supports leads to a decrease in the number of electrically charged particles carried by the wind from the installation into the surrounding space, since the closer the corona wires are to the surface of the earth, the smaller the cross-sectional area of the atmospheric space zone in which the generation of electrically charged particles and the lower the speed of the wind passing through this section (see, for example, “Small Soviet Encyclopedia”, GNI “Big Soviet Encyclopedia”, third edition, volume 2, p. 3 53). Therefore, the smaller the volume of atmospheric air passing through the zone of generation of electrically charged particles, ensuring the removal of electrically charged particles from the zone of their generation into the atmospheric space of the impact zone.

 On the other hand, the value of the critical voltage required for ignition on the corona discharge wire is less than the current value, but also depends on the distance between the corona wire and the earth's surface. The latter circumstance complicates the location of the corona wires in a vertical plane one above the other, since for each of them, taking into account the aforementioned factor, there is a value of the critical voltage required to ignite the corona discharge, and most importantly, the corona wire closest to the surface of the earth prevents normal development corona discharge on the wire located above it, practically due to the lack of potential difference between the wires. The nearest corona wire to the earth’s surface serves as a screen for the next one, preventing it from interacting with the Earth as an electrically charged body with its own potential and, in addition, the electric field between the corona wire closest to the earth’s surface and located above it will not be fully inhomogeneous field, which is one of the main factors affecting the occurrence of a corona discharge (see, for example, S.G. Kalashnikov Electricity, Moscow: Nauka, GRFML, 1977, p. 374).

 The main technical result expected from the use of an object claimed as an invention is to increase the generation of electrically charged particles per unit of the earth’s surface occupied by the device, which determines the occurrence of a space charge with a significant density of electrically charged particles, and therefore a high value of electric fields. The resulting positive effect is ensured by eliminating or significantly reducing the influence of the distance between the corona wire and the earth’s surface directly on the magnitude of the current in the corona discharge. In addition, the proposed technical solution for the first time provides a practical opportunity to implement a device for influencing atmospheric formations with the location of the corona wires one above the other in a vertical plane relative to the earth’s surface, creating the conditions for the ignition of the corona charge for each of the wires with the same critical voltage from the current source .

 The expected technical result is achieved by a new set of essential features of the proposed invention, characterized in difference from the closest prototype analogue in that the device is equipped with additional wires (with a small radius of curvature of the surface) with insulators and grounded electrically conductive grids, the last of which are mounted in a vertical plane passing through axis of symmetry of adjacent supports, and on supports within the height of the grid are installed transverse, and insulators with wires are placed on each of the cross-pieces, at least on one side of the grid one above the other, with additional wires connected to the current source and all wires oriented parallel to the grid.

In addition, in the invention there are also private technical solutions, the distinguishing features of which, along with the known ones, are aimed at solving related problems with achieving final results that increase the operational characteristics of the device as a whole, namely:
- the mesh is made with a flexible element threaded through the cells, forming along the length of the mesh one of its edges, with the ends brought out, fixed to the vertices of adjacent supports, the sides of the mesh are attached along the height;
- the crossbars and insulators are made with the possibility of movement and locking, respectively, along the height of the supports and along the crossbars;
- between the lower edge of each grid and the surface of the earth formed a free space.

 The drawing shows the design of a device for dispersing fog and clouds.

 It contains supports (1), on which, using insulators (2), a wire (3) with a small radius of curvature of the surface is connected, connected to a high voltage source (4).

 Unlike the prototype, the device is equipped with additional wires (5) having a small radius of curvature of the surface and grounded grids (6) mounted in a vertical plane passing through the axis of symmetry of the adjacent supports (1). Grounding grids (6) can be performed, for example, using electrodes buried in the ground and conductors connecting the grids to the electrodes (see, for example, “Small Soviet Encyclopedia”, GNI “Big Soviet Encyclopedia”, Volume 3, p. 974 )

 On the supports (1), within the height of the grid (6), cross members (7) are installed. Insulators (2) with wires (3, 5) are placed on each of the crossbars (7) from at least one side of the grid (6) one above the other. Additional wires (5) are connected to a high voltage source (4) and all wires (3, 5) are oriented parallel to the grid (6). When high voltage is supplied to the wires (3, 5) from a source (4), at least equal to the critical voltage, a corona discharge is ignited and electrically charged particles are generated by the wires (3, 5).

 Grounded electrically conductive grids (6) have an electric potential equal to the local potential of the Earth. The distance from the corona wires (3, 5) to the grid (6) is much less than the distance between the same wires (3, 5) and the earth's surface, which is several tens of meters. Therefore, the main part in the formation of an inhomogeneous electric field, which is one of the necessary conditions for the appearance of a corona discharge on a wire with a small radius of surface curvature (see, for example, S.G. Kalashnikov Electricity, M.: Nauka, GRFML, 1977) along with corona wires It belongs to grounded electrically conductive grids, and the electric field between the wires and the earth's surface can be neglected. This circumstance predetermines the dependence of the critical ignition voltage of the corona discharge no longer on the distance between the wires (3, 5) and the earth's surface, but on the distance between the wires (3, 5) and the grounded grid (6), which allows obtaining corona wires located on a significant distance from the earth's surface (tens of meters) with limited voltage of the power source, the corona discharge current values are sufficient to saturate the passing air masses with electrically charged particles. It follows that, due to, compared with the prototype, a significant increase in the magnitude of the current in the corona discharge, which contributes to an increase in the number of electrically charged particles generated by the corona wires, as well as their increase due to the possibility presented by the device, the use of an almost unlimited number of corona wires over a limited area of the land occupied by the device, as well as the possibility of using a larger volume of the passing atmosphere to carry generated charges Foot air space charge formation provided with the increased intensity of the electric field that accelerates the processes of interaction of the electrically charged particles with atmospheric formations.

 When implementing the proposed invention, it is recommended to take into account the wind rose that prevails for the specific area on which the device is used, the direction of the wind, since the wind plays a crucial role in the removal of charges from the zone of their generation and in their distribution in the atmosphere of the surrounding space. It is most advisable to place the installation in such a way that the wind is mainly directed at the corona wires from the side of the grounded mesh, at best at right angles to it. Then the electric charged particles formed during the coronation of the wires will be carried away by the wind from an earthed grid, thus preventing them from flowing to the Earth. In the case when the distribution of the repeatability of the wind direction on the terrain is clearly unstable, it is advisable to use an installation with corona wires located on both sides of the grounded grid and constantly determine the direction of the wind, turn off the corona wires from the windward side from the operating mode, since their efficiency of participation in the formation of a space charge will be reduced due to the draining of the fraction of electric charged particles along the grounded grid into the Earth, although However, due to the increased current strength of the corona discharge and the use of not one but several corona wires with identical speeds of generating electrically charged particles, as well as the maximum use of the work of the wind to move particles in the atmosphere, conditions are created for the formation of a space charge with a high electric field, capable of injected ions the speed of movement from the device to the clouds at least with the speed of movement of the air masses in the upward flows.

 Electrically charged particles, being in an atmosphere saturated with moisture, condense vaporous moisture on themselves, creating molecular complexes and possibly even submicron particles of condensed moisture, which reduce the partial pressure of vaporous moisture and reduce the degree of supersaturation. Thus, the prevailing natural phase equilibrium is violated, which leads to a change in the dispersion of water aerosols - large droplets coarsen due to the decay of small ones. Large drops, having reached sizes sufficient for their gravitational precipitation, fall to the ground, capturing small drops on their way.

 In addition, the space charge generated by electrically charged particles of atmospheric air passing through the corona region of the proposed device creates an electric field inside the fog or cloud with intensity E.

 The electric field of the space charge, along with other related phenomena with the force F = qE (where q is the droplet charge), sets in motion charged droplets of fog or clouds. Submicron droplets move with the greatest speed under the action of the field charge of the space charge. In the process of movement, submicron droplets collide with each other, as well as with micron-sized droplets and coagulate.

 Drops growing during the coagulation process during a fall capture a large number of charged and uncharged drops in its path, and the destruction of the fog (cloud) is of an avalanche nature.

 The claimed object contains several private technical solutions, the first of which is aimed at providing reliable and easy fastening of electrically conductive grids in a vertical plane passing through adjacent supports, which are one of the conditions for achieving the expected result.

 The mesh is made with a flexible element threaded through the cells, forming along the length of the mesh one of the edges with the ends brought out, intended to be fixed near the vertices of adjacent supports. As a fastener, it is preferable to use already developed structures that can provide an interference fit for a flexible element (steel string, thin cable, etc.) that holds the edge of the grid in a vertical plane.

 A known node that meets the specified requirement (see, for example, A.S. N 460051 according to the application N 1630626 / 28-12 according to Cl. A 47 H 1/19, published February 15, 1975), including a tube with an external and internal threads and with a nut located inside it with keyways and a thrust bearing, a blind nut. The last three parts listed have a channel along the axis of symmetry for their placement on a flexible element.

 To use the assembly in the claimed object, it is sufficient to make holes with or without threads depending on the material of the supports themselves near the peaks in each of the supports on opposite sides, and in the latter case, adapter sleeves with internal thread are installed and fixed in the holes.

 On each of the ends of the flexible element emerging from the grid, a dummy nut, a nut with keyways and a thrust bearing are sequentially placed, in which the ends of the ends of the flexible element are fixed.

 A thrust bearing is inserted into a pre-installed tube in each of the holes of adjacent supports with a part of the flexible element, and then a nut is screwed in using a wrench.

 By changing the position in the tubes of the nuts interacting with the thrust bearing, the required preload of the flexible element is achieved. The node also allows you to adjust within certain limits the position of the sides of the grid relative to the supports mainly by simultaneously adjusting the location of the nuts. For a reliable arrangement of grids in a vertical plane, their lateral sides are made with rods welded to the last row of cells, which are fastened along the height of adjacent supports, for example, using tie clamps of an appropriate size (see P.I. Orlov Design Basics. M .: Engineering, 1977, book 3, p. 211, Fig. 395).

 The assembly of the device as a whole, depending on the height of the supports used, can be carried out either after installing the supports on the ground using elevators, or directly on the surface of the earth with the subsequent lifting of the structure to a vertical position as is practiced when assembling and installing the supports of power lines.

 Another private technical solution of the claimed object provides for the implementation of the crossbeams and insulators with the ability to move and lock, respectively, along the height of the supports and along the crossbars.

 It is aimed at ensuring the operation mode of the device with the highest possible generation efficiency of electrically charged particles in specific operating conditions from the point of view of obtaining the best final technical result, thanks to the purposeful regulation of the distances between the grounded grid and the corona wires, as well as the distance from one crossbar to another along the height of adjacent supports.

 The complexity of the processes that occur during the generation of electrically charged particles by the device, associated with the heterogeneity of the emerging electric field, constantly changing atmospheric parameters, wind speed and direction do not allow the calculation to determine the optimal relative position of the device elements. The proposed particular technical solution allows us to solve the problem experimentally.

 To enhance the technical result provided by the set of essential features reflected in the first paragraph of the claims, periodically varying the relative position of the crossbars along the height of the supports and insulators relative to the grounded grid, the potential difference between the atmospheric layers and the earth's surface is measured using a portable probe connected to an electric motor placed on the vehicle from which the probe is controlled by its height relative to the device . It should be noted that the potential difference characterizes the electric field as completely as the intensity, but it is easier to measure than the intensity (see, for example, Elementary Physics Textbook, vol. 2, GIMFL, Moscow, 1985, p. 56).

 The movement of the cross-members along the height of the supports relative to each other is ensured by the fact that the cross-members are made in the form of a plate connected to a coupling clamp. If necessary, plates opposite to one another can be attached to the coupling collar. A longitudinal groove is formed in the side walls of each plate, and the shelf between the plates is made with a width slightly exceeding the diameter of the insulators. Insulators are mounted on shelves, equipped with studs included in the grooves, and nuts.

 To change the location of the cross-members, the clamps are unlocked and the cross-members are moved along the height of the supports to a predetermined position, and then the clamps are clamped on the supports. Insulators, if there is a need for this, are moved along the grooves of the strips, using risks to select a new position, after which they are fixed with a nut.

 The last particular technical solution is aimed at providing, despite the presence of the grid, the device's operation capabilities without violating the conditions that determine the external environment with respect to unhindered passage under the grid, for which free space is formed between the lower edge of each grid and the earth's surface. In accordance with GOST (see, for example, Polytechnical Dictionary, M .: Soviet Encyclopedia, 1980, second edition, p. 99), the distance from the lower edge of the grounded grid to the earth's surface is set at least 4.5 meters.

 The proposed technical solution, as follows from the materials presented, allows to increase the efficiency of the effect of electrically charged particles on atmospheric formations without increasing the area occupied on the earth’s surface compared to known similar devices based on the use of corona wires located above the earth’s surface and, thus, is the most acceptable for implementation.

Claims (4)

 1. A device for dispersing fog and clouds, containing intended for the generation of electrically charged particles and connected to a current source a wire with a small radius of curvature of the surface, mounted on insulators supports, characterized in that it is equipped with additional wires with insulators and grounded conductive networks, the last of which are mounted in a vertical plane passing through the axis of semmetry of adjacent supports, with cross members installed on supports within the height of the grid, and insulators with wires rows are arranged on each of the arms having at least one side of the mesh over each other, the additional wires are connected to a current source and all the wires are oriented parallel to the grid.  2. The device according to claim 1, characterized in that the mesh is made with a flexible element threaded through the cells forming one of its edges along the length of the mesh, with the ends brought out, fixed near the vertices of adjacent supports, the sides of the mesh are attached along the height.  3. The device according to claim 1, characterized in that the crossbars and insulators are made with the possibility of movement and locking, respectively, along the height of the supports and along the crossbars.  4. The device according to claims 1 and 2, characterized in that a free space is formed between the lower edge of each grid and the surface of the earth.