RU2457670C2 - Air flow control system to control atmospheric phenomena by kushchenko va - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to energy devices and devices determining the climatic events. The air flow control system for controlling weather events includes devices forming flows that generate electrical energy, and devices of formation of flow that consumes electrical energy. They consist of a cable construction, covered with a shell of airproof cloth, and represent a channel for air flow. At the bottom of the channel a generator is fixed. The channels are supported in an upright position with balloons with the possibility of to change the angle of inclination. At the height of the balloons there are the electrodes that generate an electric field between them and the ground surface. The forming flows devices contain electric and gas heaters to create swirling upward or downward air flows. The devices are located in a regular manner on the ground surface and connected to each other with channels of energy and information transmission and are connected to the control system. The forming flows devices include orbiting space objects capable to deliver and spray water vapor, or gas, or metal foil, smoke diffusers and aerosols to create a protective shell in the Earth's atmosphere.

EFFECT: more effective impact on the climatic events is provided.

7 dwg

Description

The invention relates to energy devices and devices that determine climatic phenomena.

Known wind turbine of the vortex type, according to the application No. 2002132678 F03D 9/02 consisting of a tower oriented in the direction of the wind with a tangential type air intake, an air outlet and a working rotational working body in the air channel connected with the electric generator. A disadvantage of the known device is its low efficiency. In the absence of wind, there is no electricity for consumers. This device cannot generate air currents of a given direction and speed.

Known installation of energy conversion of the flow of the medium according to the patent of the Russian Federation No. 2381379 C1, F03D 1/02. The installation contains two pipes with electric generators appropriately connected. A disadvantage of the known device is the dependence of the energy received on the presence of wind. This device also cannot generate air currents of a given direction and speed.

Known wind power installation according to the patent of the Russian Federation No. 2103545 C1. The essence of the device is that the air flow is forcibly formed by a wind tunnel. A disadvantage of the known device is the relatively weak power of the received stream and, accordingly, the received electric power and a large number of complex devices for summing the stream, the bulkiness and inefficiency of the proposed device. This device also cannot generate air currents of a given direction and speed.

Known wind power according to the patent of the Russian Federation No. 2067690, F03D 1/02. The essence of the device is that the wind station contains a housing, air supply channels, wind wheels with horizontal axes located on them, kinematically connected with generators, a vertical exhaust pipe. This device cannot generate air currents of a given direction and speed.

The known power supply system of an autonomous building according to the patent of the Russian Federation No. 2352866 C1, F24D 15/02 (2006.01), which contains a dome, a channel with a wind generator and other equipment providing autonomous power supply to the building. A known device cannot form a stream of a given direction.

Known air traffic control system for regulating atmospheric phenomena, which contains a device for forming flows (RF 2105463, 1998), which is the closest analogue. The disadvantages of this system - consists of installations located at a distance of several hundred kilometers and to control them it is necessary to attract space-based surveillance equipment.

The objective of the invention is the development of a device that allows you to create certain climatic phenomena, which is very important for agriculture, industry and for the living environment of living creatures.

The technical result is to increase the efficiency of the device and simplify its control system.

The technical result is achieved by the fact that the airflow control system for controlling atmospheric phenomena according to the invention comprises electric current generating devices and electric energy generating devices consisting of a cable structure coated with an airtight fabric sheath forming a channel for air flow, and consisting of a cable structure supported upright by balloons with the ability to change the angle n a slope, at the height of which there are electrodes that create an electric field between themselves and the earth's surface, containing electric and gas heaters to create swirling ascending or descending air flows, a generator is fixed in the lower part of the channel, the devices for forming flows are regularly located on the earth's surface and are connected between channels of energy and information transmission connected to the control system, moreover, the device for the formation of flows contain located on the corresponding height orbital space objects, and capable of delivering a desired spray material to create a predetermined size, and transparency of the protective outer screen; moreover, the device for the formation of flows also contains appropriate sprays for creating a protective shell in the atmosphere of the earth, and the control system includes an image processor connected to a digital processor connected to the generator unit, to the lifting-lowering unit, also connected to the electric field reproducing unit, is also connected to a block of balloons, also connected to a block of sensors, is also connected to blocks of electric and air flows, also connected to a block of a protective shell and Loka screen space.

The invention is illustrated by drawings of figures 1-7. Figure 1 shows a General view of the system, figure 2a shows the surface of the earth, divided by squares 1, ..., n, along the x-axis and y-axis 1, ..., m, where the device for forming flows, Fig.2b is shown among of the same squares, vortices A 44 and its two varieties, upward flow (A1) and downward flow (A2), Fig. 2c shows vortex B 45 and its two varieties, Fig. 3 shows the arrangement of the flow forming device at the intersection of line 46 ( x, y), figure 4 shows a device for the formation of flows, creating a stream, only consuming energy, figure 5 showing An option for lowering (tilting, lifting) cable structures 53 with the aim of organizing the direction of flow 78.5, FIGS. 6a, 6, c, d show four options for vortices: A1 79.1, A2 79.2, B1 80.1, B2 80.2 with air flow direction, on Fig.6d shows water 81 and air 82 flows, as well as vortices 83, 84 on the surface of the earth; Figs. 7a, 7b, 7c show a control system.

The device consists (Fig. 1) of a shell 1 filled with gas lighter than air, for example, helium, placed in fasteners, for example, a grid, 2 connected by means of locks 3 to power cables 4, going to the base 5, which can be, for example, a beam deepened into the ground, if the device is located on land or a float by means of a cable 6 attached to the anchor 7. At a certain distance from each other there are rigid circular rings (belts) 8. A sheath is attached to this structure from belts and cables, for example, from airproof removable fabric, forming a channel for air flow (P) inside the shell 9. The cables 4 are attached to the belts 8. At a certain distance from each other (in height) there are also shells 10, possibly of another shape, for example, mountainous, which are attached by means of fastening 11 to the corresponding belt 8. The shells are filled with gas lighter than air, for example helium. The retention of the air channel (pipe, shell) 12 is also possible using a structure of levers 13, cables 14, locks 15, shells filled with, for example, helium 16. In the lower part of the channel 12 a generator 17 is attached, on belts 18 and braces 19. On the shaft the generator 17 is attached to the impeller (propeller, turbine) 20, rotating under the pressure of the air flow with an angular velocity ω. There can be several stages of such generators 17, with different pitch, diameter and number of screws 20. A cable 21 is connected to the generator 17, connected to a distribution device (converter, switch) 22, connected to a line 23 mounted on poles 24 (supplying electricity to the consumer ( W)). A structure 25 is attached to a specific belt 8, to which a sun-transparent fabric (surface, film) 26 is attached, which can also be attached via cables 27 to the sheath 28 by means of a lock 29 and a mesh 30. If the device is mounted on the surface, the structure 25 is held via cables 31 and blocks 32 (for example, recessed into the ground). If the device is installed above the water surface, then the film 26 is held by floats 33, cables 34 attached to the anchors 35. The water surface can also be covered with a film (fabric) 36, also attached to the cables 31. The solar stream Q 38 passes the film (dome) 26. The device comprises a pump station 39 with a control system 40, controlled by valves 41, connected by pipelines 42 to the shells 1 and 16. The pump station 39 may include containers for helium. On figa shows the surface of the earth, divided by squares 1, ..., m, along the x-axis and y-axis 1, ..., m, where there are installed devices for the formation of flows (UVP) 42, which form a flow up (42.1-42.3) and down (42.4). Formed air flow (FWP) 43. Figure 26 shows, among the same squares, vortices A 44 (clockwise rotation) and its two varieties, flow up (A1) and flow down (A2). On figv depicts a vortex B 45 (counterclockwise rotation) and its two varieties, flow up (B1) and flow down (B2). Lines of squares 46 may be defined at the desired frequency. Figure 3 shows the location of the UVP 42 at the intersection of lines 46 (x, y), where the UVP 47 generates electricity (elements 1-42), and the UVP 48 creates only air flow (consuming electricity and other energies, such as gas). UFP 47 are interconnected in a network and connected to a control system (SU) 49, which is also connected to each of the UFP 48. Figure 4 shows the UFP 48 (creating only a stream, only consuming energy). It also has, like UVP 47 (FIG. 1), a shell 50 filled with gas lighter than air, for example helium, placed in fasteners, for example a grid 51, connected by means of locks 52 to power cables 53 leading to the base 54, which may be for example, a beam deepened into the ground, if the device is on land or a float by means of a cable attached to an anchor. All necessary structures can be covered with thermal insulators. Rigid circular rings (belts) 55 are located at a certain distance from each other. Cables 53 are attached to the belts 55. At a certain distance from each other (in height) there are also shells 56, possibly of different shapes, for example, mountain-shaped, which are attached by fastening 57 to the corresponding belt 55. The shells are also filled with gas lighter than air, for example helium. The lifting mechanism 58 by cables 59 is attached to the elements of the UVP 48. Grid electrodes 60 are also attached to the cables 53, which are able to create an electrostatic (electric) field (E) 61 of a given direction (Fig. 4), the vector B 61 is directed upward (can be directed down or in a given direction). The inclined mesh surfaces 62 are also attached to the cables 53, which with their airtight surface can swirl the flow (by a given angle of inclination). Grid structures of balls 63 can also serve as electrodes that specify an electric field, like other structures 60. Through a cable 64 are connected to a power plant 65 located on the surface of the earth 66, which has a negative charge 67. Air molecules (and atoms) have positive charges ( are ions 68), photons 69 are emitted by the sun 70. The air (atmospheric) shell of the earth has various levels of pressure 71 and, accordingly, charges (concentration of charge carriers). On the surface of the earth 66 there is a pump station 72 with a capacity for gas, like fuel for burners 73, mounted on cables 53, to which pipelines 74 from the pump 72 are connected. On the surface of the earth 66 there is also a pump station 75 with helium (gas is lighter than air) with pipelines (similarly to UFP 47 of FIG. 1) and a gas heating device 76 in balls holding the structure in a vertical position, which are located at a given distance in the same way [5]. With appropriate wires connected to the heating elements of the balls. On the surface of the earth 66 there is also an installation 77, which creates electric discharges for heating the air in the channel of the cables 53 with the corresponding wires connected to the electrodes 78 mounted on the cables 53. On the surface of the earth 66 and on the shells of the balls 50, 63 are controlled in size and direction emitters 78.1, creating air ionization (directly in the immediate environment of the installation or in a distant place, or by reflection from the surface layers of the atmosphere and earth). Figure 5 shows the option of lowering (tilting, lifting) cable structures 53 in order to organize the flow direction 78.5. On figa, 6, c, d shows four options for the vortices: A1 79.1, A2 79.2, B1 80.1, B2 80.2 with the direction of the air flow with speeds v1, v2 of the movement of particles, horizontal speed vp and angular speed of rotation of owls. On fig.6d shows water 81 and air 82 flows, as well as vortices 83, 84 on the surface of the earth (water) 66. The positions of the sun 38 (70) and the moon 85, as well as the screen shell 85.1 are also shown. Above the atmosphere, flows 85.2 from the Coriolis forces and flows 85.3 from the attractive forces of the sun and moon are shown. On ropes 53 are also attached atomizers 78.2 smoke (aerosols) 78.3 connected to the pump 78.4 of these substances. 7 shows a control system (SU) 49, consisting of a keyboard unit (BKL) 86 connected to a digital processor (VK-C) 87 [1] connected to a block of video monitors (BVM) 88: VK-C 87 is connected to image processor (VK-0) 89 [2]. VK-C 87 is also connected to a data transmission receiving unit (BTP) 90, which is connected to a data receiving circuit (SP) 91.1-91.n, connected, in turn, to the control inputs of the lifting mechanisms (PM) 92.1-92.n (lowering the object or raising it). Elements 91-92 form a block for raising and lowering balloons (BPO) 63. Such BPO 93.1-93.m is given by the technological implementation. BPPT 90 is connected to generator blocks (GB) 94.1-94.k, which are connected by power buses (wires) to a switching element (CE) 95 connected by control inputs to a data receiving circuit (SP) 96 connected to BPPT 90. CE 95 and SP 96 are combined into a switching unit (KB) 97.1-97.d connected to the corresponding electric field reproducing units (BEP) 98.1-98.d. BPPT 90 is connected to SP 99 connected to transducers 100 connected to the control inputs of a valve (КР) 101, the input of which is connected to a gas tank (TE) 102, and the output is connected to the corresponding input of a balloon 103, in which pressure sensors are installed (Р ) 104, temperature sensors (T) 104.1, electric field sensors (E) 104.2, a heating element (NE) 105, the input of which is connected to the output of the key (K) 106, whose control input is connected to the output of the joint venture 107, and the input to the output of GB 94.1-94.k. The outputs of the sensors 104 are connected to a data transmission circuit (SHPR) 108 connected to the input of the BPPT 90. Elements 99-108 are combined into a balloon unit (BHS) 109.1-109.L. The pressure sensors (P) 110 are connected to the storage system 111, forming the blocks of pressure sensors (BDI) 112.1-112.r connected to the input of the BPPT 90. The speed sensor (V) 113 (direction and speed of the air flow) is connected to the storage system 114, forming the sensor unit speed (BDS) 115.1-115.t. The temperature sensor (T) 116 is connected to SHPR 117 (forming a block of temperature sensors (BDT) 118). BDD 112, BDS 115, BDT 118 are connected to the input of the BPPT 90 and form a sensor block (DB) 119. The BPD 90 is also connected to the SP 120 connected to the fan block (BV) 121 (combined into the air flow block (BVP) 122.1-122 .R). The input (power) of the BV 121 is connected to the outputs of the GB 94. The BVP 122.1-r is also installed on the surface of the earth 66 and is a UFP 47, instead of the generator 17 there are fans (generators operating in the engine mode). BPPT 90 connected to the joint venture 123, connected to the control input of the electric heating unit (BEN) 124, combined into a flow heating unit first (BNP1 125.1-s). On Fig depicts a variant of BEN 125. These are electrodes 126, which are connected through a wire 127 to a voltage source U 128. The output of the BTPD 90 is connected to a SP 129, connected to a converter (PR) 130 connected to the control input of the crane (KR) 131, the output connected to the gas heating unit (BGN) 132 (connected to the input of SP 129). The input of the KR 131 is connected to the output of the gas tank (GE) 133, filled with combustible gas. Elements 129-133 form a flow heating unit of the second (BNP2) 134.1-j. Option BNP2 134 depicted on figv. This can be a pipe 135 with holes 136, through a hose 137, gas 139 enters the combustion zone 138. At the ends of the pipes 135 there are gas ignition systems 140. The air-ducts 90 are connected to the emitter movement blocks (BDI) 141.1-f to the switching blocks (КБ) 142.1-q, connected to radiation generating units (BSI) 143.1-h (generating electromagnetic radiation, providing ionization of air at close or long distances). Blocks 141-143 form a radiation block (BIZ) 144, the emitters of which are mounted both on the surface of the earth 66 and on balloons 50, 63 (position 78.1, FIG. 4). The output of the BPPT 90 is connected to the transmitter (Rx) 145. The receiver (Rx) 146 is connected to the receiving circuit (SP) 147, connected to the drive (R) 148.1-s. Elements 146-148 form a space screen unit (BKE) 149. The output of the BOPD 90 is also connected to the joint venture 150.1-150.q, connected to the drives (PR) 151.1-151.q. Elements 150.1-150.q form a block of the protective shell (BZO) 152.

The device operates as follows. The solar flux Q 38 (FIG. 1) passes through the transparent surface of the film 26 and heats the air in the space between the surfaces 26 and the surface of the earth or the water surface or the surface of the blackened fabric (film) 36. The heated air is forced out more cold and creates a stream (P) 9 going to the upper part of the channel 12, where it exits at a certain height. The stream (P) 9 rotates the screw 20, which drives the shaft of the generator 17, which generates electrical energy, which through the wires 23 enters the consumer (W). If necessary, through the control system 40, the pump station 39 through pipelines 42 and through controlled valves 41 reduces the pressure in the shells 1, 10, 16, 28, etc., which leads to lowering of the entire structure (with increasing pressure to the lifting structure). The electricity obtained in this way can be used to control the flow of air masses, which actually determine the climatic phenomena: temperature, precipitation, pressure, wind speed and its direction. The sun 70 (Fig. 4) emits photons 69, which ionize the air of the atmosphere (71), knocking out electrons that are carried away into space. Positive air ions are attracted to negatively charged earth, which holds air masses. This is the reason for the sultry (+ 43 ° C in Voronezh 50 days) air stagnation. To change or remove this air mass, it is necessary to create air currents. When creating voltage between electronic grids 51, 60, 63, electrical installation 65, the grids will be negatively charged, all with great potential (E61) from grid to grid. A stream of air ions is created, which trap also uncharged particles. When moving in one direction, the lines (tubes) of currents begin to attract each other, the inclined surfaces 61 also swirl the flow, creating a vortex of the type A1, A2, B1, B2. The flow can also be created by using the device of figure 1 (UFP 47), but in this case, the generator 17 should work as a fan motor 20, creating a flow. UVP 47 can also be tilted, as shown in FIG. 5, in a predetermined direction. A contracting vortex produces compaction in the center, as well as sparseness around it, where suction is carried out, creating a sufficiently large force due to the pressure drop both in the horizontal plane, relative to the surface of the earth, and in the vertical. This is manifested in the fact that a whirlwind raises animals, cars, and houses. There is also a rotational moment of the vortex masses. In the absence of solar radiation, ionization is carried out by emitters 78.1. Streams (vortices) of types A1, A2, B1, B2 can also be created by heating air, for example, gas burners 73 or electric heaters 78. Discharges are carried out between two electrodes 126 (Fig. 76) when a corresponding high-voltage voltage is supplied from a voltage source U 128. Gas 139 is supplied via pipe 137 and ignited by devices 140 located in each gas burner (Fig. 7c). Figure 2 shows the generated flows down 42.1, 42.2, 42.3 and directed up 42.4. By creating vortices A1 A2, B1, B2 in the system and directing their movement, it is possible to form an air flow in the direction of, for example, 43. Figure 3 shows a variant of the general scheme of generating capacities and flow generating devices. Figure 4 shows water and air flows uncontrollably flowing on the surface of the earth. The main forces here are the convection forces of the heated air, which rises, then cools. Cold air flows from north to south to the equator, such a process is carried out at the north and south poles. In this case, it is necessary to take into account Coriolis forces (the forces of interaction of the air flow with rotating air masses, the linear velocity of which increases with the transition from north to south (from south to north in the southern hemisphere), since the radius from the axis of rotation of the earth grows). The vortices arising here such as A1, A2, B1, B2 have a large area. Here the interaction occurs, as shown in fig.6d. Since the vortices rotate coaxially to the axis of the earth, that is, they have an inclination to the surface of the earth, so they can slow down at one end on the surface of the earth, the other is free, and therefore also have a speed of movement. For example, vortex 8.3 rotates counterclockwise with the left edge clinging to the surface of the earth and therefore the vortex moves east. The second vortex 8.4, rotating clockwise, slows down the left edge and moves west. The control system (SU) 49 operates as follows. Using the BKL 36 keyboard, VK-Ts 87 processor, BVM 88 monitors, commands are transmitted and feedback information is processed using developed models algorithms that specify a given direction of air flow in a controlled area [1, 2]. Then, by BAPD [4] 90, BDD 112 transmit data on pressure in a given area, BVS 115 data on speed and direction of air flows, BDT 118 on temperature in a given place. These data are supplied to VK-Ts 87 and processed by VK-O 89 [2], which produces an optimal solution. Upon receipt of an appropriate command from the BPPT 90 on the BPD 93.1-m, a certain inclination angle of the UVP 48 or UVP 47 is set, operating in the fan mode by means of PM 92.1-n. GB 94.1-k generates electricity, which is supplied to the electric field reproducing units (BEWP) 98.1-d. Teams come from VK-C 87 (BPPT 90) through SP 96 and KE 95, KB 97.1-d. Corresponding sensors also monitor the field level in the area of this sensor E 104.2. Through pressure sensors (P) 104 in a given ball pressure is measured. Through temperature sensors (T) 104.1 in a given ball determines the temperature of the gas in the ball. Further, information through SHPR 108 enters the BPPT 90 and then to VK-Ts 87. Through SP 99, PR 100, and KR 101, the command from VK-Ts 87 (BPPT 90) allows gas to pass from GE 102 to ball 56 to increase (decrease ) pressure. By means of SP 107, K 106, BVSh 109.1-L, heating elements (NE) 105 set a certain temperature in the ball 56. By means of BVP 122.1-r, BV 121 objects are controlled (via SP 120), which are similar to UVP 47, but operate in the mode create threads. BNP1 125.1 - 125.s, heats the air flow in the channel UFP 48 with electric discharges. BNP2 also creates the temperature of the stream in the channel, but with the help of gas burners. SP 129 through PR 130 opens the crane for BGN 132, supplying gas and then the air flow is heated. Gas comes from GE 133 (BNP2) 134.1-j. BIZ 14 through BDI 141.1-141. f, which sets the radiation direction, and KB 142.1-q and BSI 143.1-h ionize the atmosphere in a given region. VK-C 87, through the PRD 145, forms a command that is received by the PRM 146 and, through the SP 147, controls the drives 148.1-148.С, which open the corresponding gateways for the release of aerosols (water vapor, gas, metal foil, etc.) into orbit. Delivery to orbit of this mass is carried out by means of the system of ascent into orbit of the Earth and descent [5]. The shadow strip can be of a given width and transparency, covering a specific surface of the Earth with a shadow. The created protective space screen needs to be updated, since due to the action of gravitational forces from the side of the Earth, it enters the atmosphere and dissipates over time. VK-C 87 gives a command, which through SP 150.1-150.q enters the corresponding PR 151.1-151.q, which opens the corresponding gateway 78.2, through which the pump 78.4 gives the appropriate material to create a protective shell 78.3 (figure 4) in the atmosphere earth, which creates the necessary shading, the necessary surface of the earth.

1. Currently, not only the weather forecast is needed, but also regulation, management of weather conditions, phenomena, which allows us to make the proposed device.

2. The 2010 abnormal heat in the Russian Federation is apparently caused by solar radiation, intentional or unintentional sources of electromagnetic radiation, which create positive ionization of the air, which is attracted by a negatively charged Earth. Air currents were needed, for example from burning forests, which removed this established air mass. Therefore, there is a need to create a device capable of controlling these phenomena.

3. When ionized air currents rise upward in the electric field of the atmosphere, a current is created where flying jets (flows) collide (unidirectional currents are attracted), turn into eddies, creating tornadoes, hurricanes, and tornadoes. Electrical phenomena have a decisive effect on the strength of air currents, creating a cord of high pressure and further discharge. This cord is the destruction.

4. The proposed device helps to withstand global climate change by redistributing flows with a certain temperature, balancing the northern cold temperatures with warm equatorial ones, making living on earth more favorable. With an even greater increase in temperature on Earth (50, 60, 70 ° C or more), the places where you can be saved are the polar regions, mountains, and dungeons. Therefore, there is no alternative to climate control on Earth. This is the unifying moment of civilization.

5. With greater activation of the sun, it is necessary to make a space protective shield located in a given orbit of the Earth, creating a shadow surface, or a smoke shield at a given height of the atmosphere.

6. The proposed device can serve not only as a means of defense, but also an attack. Therefore, you must have the same protection.

7. Climate regulation does not allow, for example, transporting rivers of the north to the south, but making the areas where these rivers flow inhabited. It also allows controlled streams to irrigate deserts, settle in permafrost and wetland, rocky terrain. Only climate control will make the Earth truly inhabited.

8. The ability to control the temperature of the entire planet, allows you to get rid of the waste of hydrocarbon raw materials, which can go on the creation of new devices, for example, habitat on other planets or the creation of an artificial planet for the purpose of global salvation. The proposed device gives the direction of movement to counter the inevitable natural phenomena, makes it possible, by collective unification of efforts, to implement the option of salvation, because the absence of such devices leads to a deterioration in the conditions of existence on Earth, the productivity of civilization, and a decrease in the number of people and their quality. Civilization may leave the historical arena. If the Earth programmatically creates such conditions, then it is necessary to respond to its challenges by solving the problems of the videoconferencing [3].

9. The path to global salvation lies through the creation of constant weather control and control of the Earth and surrounding phenomena, and this path is then endless.

Information sources

1. Kushchenko V.A. Image Processor V. Kushchenko RF patent No. 2399093.

2. Kushchenko V.A. Modeling of videoconferencing structures. Abstracts of the conference "Modern Problems of Informatization", Voronezh, 1997, 117 p.

3. Kushchenko V.A. Virtual Cosmic Consciousness (Controlled World). DON ASET No. 4, 1998, p. 7.

4. Kushchenko V.A. Digital processor V. Kushchenko The decision to grant a patent on the application No. 2007134771/09 (037989), 2007

5. Kushchenko V.A. The system of ascent into orbit of the Earth and descent. Application for the invention of the Russian Federation No. 2010129004.

Claims (1)

An air flow control system for controlling atmospheric phenomena, comprising flow forming devices, characterized in that it comprises flow generating devices generating electric energy, and flow generating devices consuming electrical energy, consisting of a cable structure coated with an airtight fabric sheath forming a channel for air flow, and supported in a vertical position by balloons with the ability to change the angle of inclination, at the height of which there are electrodes that create an electric field between themselves and the earth’s surface, containing electric and gas heaters to create swirling ascending or descending air flows, a generator is fixed in the lower part of the channel, the devices for forming flows are regularly located on the earth’s surface and are connected by energy transmission channels and information connected to the control system, and the device for the formation of flows contain orbital space objects capable of delivering and aspirate water vapor, or gas, or metal foil, smoke and aerosol sprays to create a protective shell in the atmosphere of the earth, the control system includes an image processor connected to a digital processor connected to the generator unit, to a lift-lower unit, also connected to the reproduction unit electric field, also connected to the block of balloons, also connected to the block of sensors, also connected to blocks of electric and air flows, also connected to the block of the protective shell and the block of braids matic screen.

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