RU2160850C1 - Device for generation of electric power from heat of ambient air - Google Patents

Abstract

FIELD: applicable for generation of electric power due to formation of a vortex in a vertically positioned pipe using the difference of temperatures and pressures over the earth surface. SUBSTANCE: the device has a support carrying a shell made in the form of a vertical cylindrical pipe with a funneled opening in the lower part, and a funnel installed with the neck up and a clearance between the opening and funnel surface for suction of air from the environment. Located in the upper part of the pipe is a wind motor with an electric generator aligned with it. Positioned in the flow-through part of the device are three burners, one of which is located in the lower part of the funnel in alignment with it, the second burner- in the periphery of the neck, and the third one - in the lower part of the pipe past the funneled opening. The second and third are each made in the form of at least three branch-pipes producing a tongue of flame directed counter-clockwise if viewed from the top tangentially to the funnel and pipe walls respectively. The branch-pipes of the third burner are located in an annular groove made with a slope in the pipe wall. Installed at the entrance to the above clearance is an annular gate with guides passing through the holes of the support and connected at least to three pneumatic or hydraulic cylinders, whose outlet branch-pipe accommodates a throttle valve. EFFECT: enhanced reliability of formation of a vortex in the pipe rotating the wind motor of the electric generator. 2 dwg

Description

 The invention relates to the field of energy and is intended to produce electricity using the temperature and pressure difference above the earth’s surface, since it is known that warmer air warmed up at the earth’s surface tends to rise up, and heavier air of the upper layers takes its place. Additionally, in the cold season, the proposed device can be used as a gas turbine power plant. In addition, the device, made in the form of a mobile installation mounted on a powerful car, can be used to form local rain during a drought.

 A device is known, called a hot-air power station [1,2], consisting of a dome transparent to sunlight (with a transverse dimension of several hundred meters and the same height), in the upper part of which a wind turbine is installed in a vertical pipe. The air under the dome warms up by the sun's rays, rushes up and rotates the wind turbine with a coaxially located electric generator that generates electricity, which is sent to the electricity network to consumers. Such plants were built and operate in countries with a hot climate, for example, in Spain [1,2].

 The disadvantage of this device [1,2] is its huge size, which requires large areas and capital investments.

 The second major drawback of this device is its low efficiency or inoperability during cloud cover and in the cold season, which is especially important for countries with a temperate or cold climate, including Russia.

 Close in technical essence and the achieved result is a device based on the use of a controlled, artificially created vortex such as a tornado-tornado [3].

 The device consists of a vertically mounted conical pipe, expanding upwards, on the axis of which a vane compressor is coaxially mounted in its lower part, and in the upper part there is a wind engine coaxially connected to the electric generator. When the rotary vane compressor rotates, air is drawn in from the environment through spiral channels twisted clockwise when viewed from above the pipe. These channels give the air that is sucked in from the outside the rotational movement that exists in a natural tornado vortex. Further, air enters the expanding upper part of the conical pipe and rotates a wind engine, which drives an electric generator that generates electricity. It is assumed that after the forced creation of the primary vortex using a vane compressor, the latter can be turned off and the tornado-type vortex vortex stream will self-sustain due to the thermal energy of the ambient air, similar to what happens in natural tornado-type vortices.

 The disadvantage of the device [3] is the complexity: a compressor with a power drive and special spiral guides are required to create a rotational movement of air forming a vortex flow.

 As the closest analogue, one can take a device for generating electric energy by converting the energy of fluid flows such as natural cyclones and anticyclones, containing a shell made in the form of a vertical pipe, guides located at the bottom of the pipe to give the air drawn in from the environment a swirling motion A unit for artificially creating a primary vortex flow in a pipe located at the bottom of the pipe; a wind engine (turbine) located coaxially with the pipe oh in its upper part and connected to a coaxially mounted electric generator, while the pipe is made cylindrical with a funnel-shaped bell in its lower part, and the guides for the formation of a vortex flow are made in the form of a funnel, installed with the neck upward coaxially with the pipe, between the funnel-shaped bell and the surface of the funnel a clearance is made for sucking air from the environment, and to form a vortex flow, the design is supplemented by a combustion device and an air heating device located in the funnel, moreover, to control the air supply in the gap, a blocking mechanism made in the form of a damper is provided [4].

 However, this device has a complex structure, and therefore, low reliability.

 The objective of the invention is to simplify the design while increasing its efficiency and expanding the possibilities of application.

 This goal is achieved due to the fact that the device for generating electricity from the heat of ambient air using a controlled vortex such as a tornado-tornado contains a shell in the form of a vertical pipe, guides in the lower part of the pipe to give the air drawn in from the environment a vortex movement located in the lower part of the pipe installation for the artificial creation of the primary vortex flow in the pipe, a wind engine (turbine) located coaxially with the pipe in its upper part and connected coaxially with the installed an electric generator above it. The casing pipe is made cylindrical with a funnel-shaped bell in its lower part, and the guides for the formation of the vortex flow are made in the form of a funnel mounted coaxially with the casing pipe with the neck up, and a gap is made between the funnel-shaped bell of the vertical casing pipe and the surface of the funnel. environment, and for the formation of the initial vortex flow in the flow part of the device there are three burners, one of which is located in the lower part of the funnel coaxially with it, the second I - on the periphery of the neck of the funnel, and the third - in the lower part of the pipe after the funnel-shaped bell, the second and third burners are each made in the form of at least three nozzles giving a torch of flame directed counterclockwise when viewed from above, tangential to the walls funnels and pipes, respectively, and the nozzles of the third burner are placed in an annular groove made with an inclination in the pipe wall, and at the entrance to the said gap there is an annular shutter with guides passing through holes in the support and connected with at least three pneumatic or hydraulic cylinders in the outlet of which the throttle is located.

 The invention consists in the following. When fuel is burned in three burners in a vertical sheath pipe, a powerful flow of hot gases arises, rushing up the pipe. Due to this, as in the known gas-jet pump [5], the gas pressure in the pipe becomes lower than atmospheric and the ambient air through the gap is sucked into the pipe. Due to the rapid increase in the air velocity in the gap as the funnel approaches the neck (due to a decrease in the cross-sectional area of the flow), the air particles experience Coriolis acceleration and they are affected by the Coriolis force [5], directed perpendicular to the air velocity vector, and this force causes an additional rotational movement of air, which also contributes to the tangential arrangement of the nozzles of the second and third burners, giving a flame, directed counterclockwise when viewed from above , tangent to the walls of the funnel and pipe, respectively. As a result of this, a gas flow arises, rushing upward and simultaneously rotating around the axis of the pipe-shell. A whirlwind such as a tornado, similar to a natural one, is formed. After the formation of the initial stable vortex, the burners can be gradually turned off, and the vortex will self-sustain due to the thermal energy of the warm air drawn in from the environment, as occurs in natural tornadoes.

 Rising up the sheath pipe, the vortex flow rotates the wind engine (turbine) and the electric generator, which generates electricity sent to the electricity network to consumers, and in the form of a vortex stream leaves the pipe outward upward into the surrounding space.

The invention is illustrated by graphic material, where in FIG. 1 shows a diagram of the proposed device in longitudinal section, and in FIG. 2 shows a diagram of the movement of air flows at a speed V and the direction of the Coriolis acceleration a _k and the Coriolis force f _k , which causes the rotational movement of air and forms a whirlwind-tornado vortex.

 The device of FIG. 1 contains a support 1 with a sheath fixed on it, made in the form of a vertical cylindrical pipe 2, with a funnel-shaped bell 3 in the lower part, and a funnel 4, installed with the neck upward aligned with the pipe 2 and with a gap 5 between the bell 3 and the surface of the funnel 4 for suction air from the environment. In the upper part of the pipe 2 are located coaxial with it a wind engine 6 with an electric generator. At the same time, three burners 7.8 and 9 are placed in the flow part of the device. One 7 of which is located in the lower part of the funnel 4 coaxially with it, the second 8 is on the periphery of the neck of the funnel 4, and the third 9 is in the lower part of the pipe 2 after the funnel-shaped bell 3, the second and third burners 8 and 9 are each made in the form of at least three nozzles giving a flame, counterclockwise when viewed from above, tangentially to the walls of the funnel 4 and pipe 2, respectively, and the nozzles of the third burner 9 are placed in the annular groove 10 made with one in the wall of the pipe 2, and at the entrance to the aforementioned gap 5, an annular shutter 11 is installed with guides 12 passing through the holes 13 in the support 1 and connected to at least three pneumatic or hydraulic cylinders 14, in which the throttle is located in the outlet pipe 15 16.

 The operation of the device is as follows.

 Using pneumatic or hydraulic cylinders 14, using a pump, compressor or cylinders with compressed air or nitrogen, the annular shutter 11 is lifted by the guides 12 and thereby open the air from the environment into the gap 5. Next, burner 7 is ignited, from which burners burn fuel 8 and 9. The flow of hot gases from the fuel combustion products through the pipe 2 rises upward and, as in a gas-jet pump [5], draws air from the environment through the gap 5 into the pipe 2. Under the action of the Coriolis force, [5] fig. . 2, the air begins to rotate counterclockwise when viewed from the top of the pipe 2. Such a rotational movement of air, as in natural tornadoes, causes a powerful suction of air from the environment. The device, as it were, drives itself. After that, burners 7.8 and 9 can be turned off. The resulting powerful upward flow of gaseous products of fuel combustion, and then air, rotates a wind engine 6 and an electric generator generating electricity, and in the form of a whirlwind tornado emerges from pipe 2, rising high up to the clouds.

 If the ambient air temperature is high enough, then the artificially created tornado-tornado, as in nature, will be self-sustaining, generating electricity from the thermal energy contained in the ambient air.

 The operation of the device can be stopped by closing the air in the gap 5, lowering the annular shutter 11 by bleeding the working fluid from the under-piston cavity of the cylinders 14, and bleeding the working fluid is carried out at a slow pace, using a throttle 16 in the outlet pipe 15 to avoid separation of the vortex from the pipe 2.

 In the cold season, when self-sustaining operation may not be possible, burners 7.8 and 9 can operate continuously, and the proposed device will operate in a gas turbine power plant.

 Since, when operating in self-sustaining mode, the tornado emerging from the pipe 2 rises up to the clouds, this opens up the possibility of causing artificial rain in the event of drought with very low fuel consumption, if the humidity in the hot air is high. Water vapor entering the proposed device with air, with a tornado-tornado will rise in the upper atmosphere, where the temperature is low, and water vapor will condense and form clouds, which will lead to rain.

 The device imitates hurricanes, taking away heat from the earth, and moves it up, so its use in areas with frequent hurricanes can prevent the occurrence of natural hurricanes.

 The economic effect of using the proposed device will be very large, but it is currently difficult to quantify it.

Sources of information
1. Quraeshi S. Solar / wind power plants. INTESOL 85: Proc.9 ^th Bien.Congr. Int. Solar Energy Soc.

 2. Rummich E. Elektrotechn. Und Maschinenbau, 1985, 102, N1, s. 37-42.

 3. Fedoryak A. Vestnik "Conversion", N 11-12, 1991, p. 14.

 4.GB 2081390 A, IPC 7 F 03 D 3/04, 1982.

 5. Savelyev I.V. Course in General Physics, vol. 1, "Science", Moscow, 1970, p. 112, p. 205.

Claims (1)

 A device for generating electric power, comprising a support with a sheath fixed on it, made in the form of a vertical cylindrical pipe with a funnel-shaped bell in the lower part, and a funnel installed with the neck upward coaxially with the pipe and with a gap between the bell and the surface of the funnel for drawing air from the environment, in the upper part of the pipe there are coaxial with it a wind engine with an electric generator, while in the flow part of the device there are three burners, one of which is located in the lower part of the the coils are coaxial with it, the second is on the periphery of the neck of the funnel, and the third is in the lower part of the pipe after the funnel-shaped bell, the second and third burners are each made in the form of at least three nozzles giving a torch of flame directed counterclockwise when viewed from above , tangentially to the walls of the funnel and pipe, respectively, and the nozzles of the third burner are placed in an annular groove made with an inclination in the pipe wall, and an annular shutter with guides passing through the holes is installed at the entrance to the said gap support and connected to at least three pneumatic or hydraulic cylinders, in which the throttle outlet conduit placed.

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