KR100938538B1 - Solar Vortex Chimney Power Plant boosted by Solar Chimney - Google Patents

Abstract

The present invention relates to a solar vortex chimney power plant using only environmentally friendly solar radiation, and primarily utilizes the principle of a conventional solar chimney. It acts as a booster for supplying pressurized atmosphere to the air. Secondly, the hot turbine on the top of the vortex chimney and the cold turbine on the bottom of the vortex chimney using the principle of the existing vortex tube. ) To enable high-efficiency generation compared to conventional solar chimneys.

The amount of electricity produced by conventional solar chimneys is proportional to the density of solar radiation on Earth and the height of the chimney. An essential component of a solar chimney consists of a flat glass roof heat collector, a chimney, a vertical tube supported by a radius pile, and a wind turbine at the base of the chimney, which is discharged to the atmosphere through incoming air and the chimney. Power generation is possible by rotating the turbine at the base of the chimney as the temperature or pressure difference of the air, but the power production efficiency for the collected sunshine is only 0.1%, considering friction and emission losses.

In addition, it has not yet entered the commercialization stage, but it mimics the tornado that occurs in nature, heats the atmosphere with a small amount of fuel, creating an artificial vortex in the form of an annular tube, There is also an invention in which the power generation efficiency is improved by 15% by operating the turbine in response to changes in airflow. However, this artificial vortex is possible because of the low stability due to external environmental changes, but the actual application is unknown. In contrast, the present invention utilizes the principle of the existing solar chimney to introduce the pressurized atmosphere from the plurality of solar chimneys into the vortex chimney, and in the chimney as the well-known Ranque-Hilsch Effect. It is possible to stably develop in the vortex chimney that generates the vortex.

In addition, the maximum diameter of the existing vortex tube as a principle applied to the present invention is about 80 mm, and the diameter-to-length ratio is 30-50, which is a small diameter and is used only for local cooling.

On the other hand, an object of the present invention is to extend the diameter of the vortex chimney to more than 100 m, while maintaining the ratio of the system length to less than 10 while acting as a vortex tube to produce electricity using only air and solar heat Is in providing.

The present invention operates a turbine installed at the base of a plurality of solar chimneys with the warmed air generated by collecting the radiant heat of the sun with a plurality of solar chimneys to take advantage of the chimney effect of the solar chimney, the plurality of turbines are turbo compressors (Turbo Compressors Hot Turbine, where compressed air at room temperature enters the inlet of the vortex chimney, as with conventional vortex tubes, where hot high-speed air is discharged from the upper vortex chimney as an engine for substantial power generation. And cold turbines where high-speed cold air is discharged to the lower part of the vortex.

Solar Chimney, Solar Collector, Chimney Effect, Turbo Compressor, Booster, Solar Vortex Chimney Power Plant, Vortex Tube Tube), Ranque-Hilsch Effect, Vortex High Thrust Jets, Coanda Effect, Hot Turbine, Cold Turbine.

Description

Solar Vortex Chimney Power Plant boosted by Solar Chimney}

The present invention is to produce the most environmentally friendly electric energy as the energy source that human beings have used in order to live a civilized life, and the non-emulsion by conventional fuels such as coal or oil or fuel by nuclear power It is not an eco-friendly power generation system, but also in the solar and heat that obtains fuel for power generation from the natural environment such as hydro, wind, or tidal power, it forms a submerged earth or changes in the output due to climate change or low efficiency. It is characterized by using the chimney effect, the Coanda effect and the Lanque-Hilsch effect so that the solar power, which is not a system, is developed with high efficiency despite the change of day and night or the climate by using the chimney effect and the principle of vortex tube.

In this way, the application limits, efficiency and capacity of existing solar chimneys have been greatly expanded and expanded to enable power supply to 2 million households, and there is no waste such as semiconductor devices for solar power generation. It is the highest efficiency in the eco-friendly power generation system, which enables large capacity generation with only solar heat, air, and a little moisture.

In conventional solar chimneys, mechanical energy is generated when heat is carried upwards by atmospheric convection. As shown in Figure 1, a solar chimney was built in Manzanare, Spain in the 1980s, with a 200 m high vertical tube, 10 m in diameter, with a turbine installed at the base. The chimney is surrounded by a heat collector made of transparent plastic 240 m in diameter, which is supported 2 m above the ground. Air enters from the open surroundings of the heat collector and rises above the chimney. Solar collectors raise the air temperature by about 20 ° C; The rising air velocity in the chimney is typically 10 m / s. The total amount of sunshine on the heat collector is 45 MW, which produces 48 KW of power in the turbine, with an overall efficiency of around 0.1%. The operating conditions shown in FIG. 1 refer to the content described in Reference [1].

Another existing proposal is to generate and control a vortex like a tornado generated in nature, which accepts it and concentrates mechanical energy [Ref. 2]. This vortex progression can be compared with solar chimneys occurring under the same thermodynamic background. Here, a physical tube called a solar chimney is replaced by a vortex, and the boundary layer with the atmosphere acts like a solar collector. The amount of work that occurs when air rises from the ground to the top of the atmosphere is typically 1500 J / kg, which is roughly equivalent to the amount of work that occurs when 1 kg of water falls with a 150 m drop. The amount of work is transferred to the ground, which is the process of receiving it. Vortex power plants can also produce 100 MW of power. The development of this process requires technical cooperation between meteorologists and engineers.

A proposal for such a vortex power plant is shown in FIG. Vortex begins by heating the air with fuel in a circular power plant and is created by passing the air through a perforated screen that rotates it, giving it an angular velocity and concentrating towards the center of the power plant. Once the vortex is formed, it remains without supply of fuel, and the base of the vortex remains in the center of the power plant. This allows an optional vertical shaft turbine located at the center of the power plant to generate electricity. The artificially generated vortex extends from the earth's surface to the atmosphere, where the conversion efficiency of heat to work can reach 15 percent.

However, there is a problem that it is difficult to predict how the artificially generated free vortex will change according to the change of the surrounding environment, and to control this, it is more stable to form a tornado-like vortex in the vortex chimney like a vortex tube. For example, one of the most widely accepted phenomena among theories interpreted as a mechanical explanation of the principle of this vortex tube is:

Compressed air is supplied to the vortex tube to allow the nozzle in the tangent direction to pass through the hole drilled into the tube. Air passing through these nozzles causes vortex movement. The spinning air flow is twisted at 90 degrees, descending along the hot tube in the form of a shell that spins like a tornado. A valve at one end of the tube will drain some of the warm air. Residual air that has not escaped impinges the valve at the end of the tube and then flows back into the compressed air inlet to form a secondary vortex under the lower pressure of the larger vortex. This inner vortex loses heat and is exhausted through the other end as cold air.

One air stream goes up the tube and the other goes down, both rotating in the same direction at the same angular velocity. That is, the air particles in the inner stream complete one revolution during the same time as the air particles in the outer stream. However, depending on the principle of preservation of the angular momentum, the rotational speed of the smaller vortex may increase. (This preservation principle proves that a spinning skater slows down or speeds up by spreading or folding his arm). However, in the vortex tube, the rotational speed of the inner vortex remains. This inner vortex loses angular momentum. This lost energy appears as the heat of the outer vortex. Thus, the outer vortex becomes warm and the inner vortex becomes cold.

As such, the principle of conventional vortex tubes introduces compressed air in the circumferential direction in the tube, accelerates along a predetermined length of the tube to form a vortex on a tornado, and after opening impacts a valve installed at one end of the tube, When the air flows back from the center of the tube to the core, a low pressure adiabatic expansion layer is formed between the vortex and the core swirling along the inner circumference of the tube. As heat is transferred to a relatively high density of circumferential vortices, the hot circumferential vortices are released to the gap between the tube and the valve, and the refluxed cold core vortices are exhausted as cold air out of the tube through the orifice. .

However, according to this principle, it is possible to obtain hot and cold air having a considerable temperature difference from the compressed air at room temperature, but the limitation of the amount of compressed air and the ratio of the diameter to the length of the vortex tube are large, which is mostly 100 mm or less. It has been applied only to local cooling and heating up to 1.5 kW scale at small diameters.

Can the Langke-Hilsch effect, which has been used only for this small local cooling and heating, be applied to the ultra-large Vortex chimney power generation system? The key is whether it can be supplied as a solar chimney.

The present invention has a low efficiency of producing only a small amount of power, compared to the solar radiation flowing into the solar collector when generating the conventional solar chimney, using the vortex amplifier and the vortex chimney of the technical and capacity of the solar chimney It is to overcome the limitation and to have a function that enables the enlargement.

Another object of the present invention is to provide a natural source of a system that attempts to generate power by artificially generating a vortex using a small amount of fuel, similar to a tornado generated in nature, which has an energy conversion efficiency of 15%. The problem lies in the complete replacement of the vortex chimney, which can be used to dispel the concern that an artificial tornado, once generated, may be displaced by external environmental changes from where the power turbine is located.

Another object of the present invention is to overcome the limitations that are limited to the very small and low volume of the weakness of the existing vortex tube, using the Langke-Hilsh effect of the advantage, by applying to the super large vortex chimney, To produce power.

When the amount of pressurized air supplied from the solar chimney is insufficient to achieve the above object, a vortex amplifier (VJ) having a coanda effect is additionally applied to supply a smooth pressurized air to the vortex chimney.

As a technical solution for achieving the object of the present invention, the present invention is the role of the booster for supplying more than 2 bar of pressurized air required for the vortex chimney, the main engine for the large-scale power generation solar chimney having a chimney effect To prepare a number of solar chimneys, and to operate the air turbo compressor in such a solar chimney, it is possible to secure a suitable solar collection area.

In addition, the present invention uses a small amount of fuel and forms an artificial tornado, and operates a turbine using the same, the theoretical efficiency of the vortex power plant trying to produce electricity reaches 15%, but the artificial tornado generated once In order to solve the instability that may change or disappear due to external environmental changes, the vortex generated by the Langke-Hilsch effect was confined within the vortex chimney to ensure stable electricity generation.

On the other hand, by utilizing the chimney effect of the solar chimney having a solar collector, the Langke-Hilsch effect, which has been applied only to the existing low-power, ultra-small vortex tube, directly supplies a large amount of pressurized air to the vortex chimney, the main engine of the present invention, or As a vortex amplifier using the know effect, the amount of pressurized air is doubled to supply hot and cold air having a circumferential speed higher than the speed of sound in a very large vortex chimney, such as in a vortex tube. By operating the hot and cold turbines of the blades, they enable higher efficiency generation than Vortex power plants, which have not yet been realized.

As described above, by using only environmentally friendly solar heat, air and a little moisture, the solar radiation from the sun is absorbed by the solar collector to produce compressed air from the solar chimney having the chimney effect to the turbine to directly or have a Coanda effect. By supplying the compressed air of the same pressure through the amplifier and supplying it to the vortex chimney, which is the main engine of the present invention, it generates a high-energy hot-cooled vortex according to the Langke-Hilsch effect. It is a series of systems generated by running a cold turbine, which does not require any extra energy from the outside, and there is no moving parts other than the turbines, so it is possible to efficiently and economically generate large capacity without requiring special management. .

As described above, the present invention utilizes the solar chimney using the solar heat chimney using the convective phenomenon according to the pressure and the temperature difference in the plurality of chimneys having a considerable height and radiant heat collected from the air at room temperature to serve as a turbo compressor, As a result, the generated pressurized atmosphere is introduced into the central vortex chimney to generate hot and cold vortices of the speed of sound in the vortex chimney according to the Langke-Hilsch effect, and these vortices are operated to operate the hot and cold turbines of the variable wing. There is an effect that enables the development.

The present invention has a simple structure of a solar collector, a chimney, a vortex amplifier (VJ) and a vortex chimney, and there is no moving part inside the system by external power, but only supplies the pressurized air to the vortex chimney at the base of the solar chimney. Only a few turbo compressors and a variable wing hot turbine and a cold turbine located above and below the vortex chimney are rotating for power generation. In this way, the radiant heat supplied from the sun to the earth is collected in a considerable area, and the effect of rising the warmed air and the so-called chimney effect by the pressure and temperature difference between the atmosphere above the chimney of a high height and the atmosphere on the ground surface Causing a constant turbine rotational speed, thereby operating the turbo compressor, drawing the pressurized air directly into the vortex chimney or via a vortex amplifier (VJ), so that the speed of sound in the vortex chimney according to the Langke-Hilsch effect The hot and cold air rotating at the same time is generated at the same time, the vortices of the rotating hot air and cold air generated in this way has the effect of enabling power generation by operating the hot turbine and cold turbine of the variable blade.

Therefore, the present invention uses only environmentally friendly solar heat and air, using the solar chimney as a booster according to the chimney effect and the Langke-Hilsch effect and the vortex chimney as a main power generation engine as a hot vortex and cold vortex at the same time, In addition to enabling power generation, it also has the effect of discharging cold air into the basement and acting as a cold storage.

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Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings.

In FIG. 1 (a), an existing solar chimney 10 is currently being operated experimentally in Manzanare, Spain, and the solar chimney is located at the center by heating air from the outside through the solar collector 1. (2), it is discharged at a high speed due to the pressure difference with the top of the chimney (2), this process is continuously introduced new air flowing from the circumferential surface of the solar collector through the solar collector to the central chimney ( Heated up to 2) and, by the so-called chimney effect, forms a cycle in which incoming air is discharged to the outside of the chimney 2, and operates the turbine 3 located below the chimney 2 to produce electricity. do. The material of the solar collector is made of transparent plastic, and the height of the circumferential surface is known to be 50 cm from the ground, but it is 2 m from the ground for the inspector's entrance for inspection during the experiment. A 10 m diameter chimney with a height of 195 m was built to enclose a 240 M diameter heat collector, producing 50 KW of electricity, with a practical efficiency of only 0.17%. FIG. 1 (b) shows three essential elements of a solar chimney-consisting of a solar collector (1), a chimney (2) and a wind turbine (3), where the incoming air is warmed through the solar collector (1) When reaching to the chimney (2) located in, the process of generating electricity by driving the wind turbine (3) with a rapid flow of air due to the air pressure difference between the outside air of the chimney (2) and the floating force of the warm air It is a cross section.

Figure 2 is similar to the tornado generated in nature, the vortex is artificially generated by forming a vortex with a screen rotating in the wind generated by heating the ground slightly, vortex to generate electricity by operating the turbine with the rotational force of the vortex A conceptual diagram 20 of a power generation system. In comparison with the solar chimney phenomenon of FIG. 1, the system is ultimately developed on the same thermodynamic basis. The physical cylinder of a solar chimney is comparable to the vortex, and the boundary layer with the atmosphere is considered a solar collector, and what happens when air rises from the ground to the atmosphere is the energy generated when 1 Kg of water falls below 150 m. The same is said to be about 1500 J / kg. Such a vortex power generation system can produce 100 MW of electrical capacity, with an efficiency of 15%, but has not yet been realized.

3 is a conceptual diagram illustrating the principle of a conventional vortex tube 30. The principle of the vortex tube 30 is also called the Langke-Hilsch effect, named after the German physicist Hilsch, who was discovered by Langke, a physicist of France in the 19th century, and proved it experimentally. When the pressurized compressed air is introduced into the inlet 31 of the vortex tube, it is accelerated while rotating along the inner surface through the vortex forming part 32 of the vortex tube 30 having a length-to-diameter ratio of 35 to 50, and then the sound velocity is higher than the sound velocity. A vortex having a circumferential velocity, a part of the vortex is discharged to the hot air outlet 33 located at one end of the vortex tube 30, and the other part impinges on the valve 34, and then flows back to form a new cold vortex It is sent to the cold air outlet 35 on the other side of the vortex tube 30. That is, the temperature of the compressed air introduced by the heat exchange between the vortex flowing in the vortex tube 30 and the vortex flowing back after the collision with the valve 34 is room temperature, but the hot air outlet 33 has a high temperature up to 140 ° C. The air of temperature is discharged, and is sent to the cold air outlet 35 at a low temperature up to -50 ℃. In this manner, the high temperature and high speed vortices and the low temperature and high speed vortices can be simultaneously produced from the vortex tube 30.

Figure 4 (a) is an implementation conceptual diagram of the present invention, in consideration of the power generation efficiency (15% in the present invention) for the solar energy sunshine, the specified output, the center of the solar vortex chimney 41 as the main engine for power generation The volume (diameter and height) of the turbo air compressor can be calculated and provided to supply the required amount of pressurized air (more than 2 bar of relative air pressure) required to continuously form vortices as in vortex tubes within the operating unit time. The radix of the solar busta chimney 42 which plays a role can be determined in view of the diameter and height of the busta chimney. Thus, in view of the supply solar heat and its efficiency, by calculating the area of the solar collector 43, a solar vortex chimney power generation system 40 using a plurality of solar chimneys is established, the solar collector 43 of The height of the circumferential surface should be less than 2 meters, but the access passage is set at about 5 meters for the entrance and exit of the vehicle, etc., taking into account the rainfall time from the circumferential surface to the solar chimney, the air turbo compressor (44) In consideration of the installation height of the gradual increase to be inclined. This solar vortex chimney power generation system 40 is the air flowing from the circumferential surface of the solar collector 43 as shown in Figure 4 (b) (AA sectional view) through the solar collector 43 to the solar chimney 42 When reaching, the air turbo compressor 44 can be operated by the chimney effect due to the pressure difference from the top of the solar chimney 42 and the temperature difference, from which pressurized air is supplied to the vortex chimney 41 which is the main engine. When supplied, in the vortex chimney 41, hot air having a circumferential speed greater than the speed of sound is discharged to the upper portion of the vortex chimney 41 by the Lanque-Hilsh effect in the vortex tube, and cold air is discharged downward. The present invention is a solar vortex chimney generation system 40 by installing the hot turbine 45 of the variable blade at the point where hot air is discharged and the cold turbine 46 of the variable blade at the point at which cold air is discharged. Embodiment can be.

Looking at the flow of the atmosphere as the entire cross-section of the solar vortex chimney power generation system 50 of the present invention in Figure 5 (a), the ambient air (53a) at room temperature flows into the circumferential surface of the solar collector 53, the solar collector ( At the top of the solar chimney 52, the air having a temperature higher than the ground and heated by the radiant heat of the sun entering through the solar heat collector 53 is higher than the outside air through the solar chimney 52 along the inner surface of the solar collector 53. It is discharged to the air 53b having a pressure higher than the external pressure. At this time, by operating the air turbo compressor 54 utilizing the chimney effect of the solar chimney 52, the pressurized outside air 51a is introduced into the Vortex amplifier (VJ: Vortex High Thrust Jets), By supplying the amount of air amplified by the Coanda Effect to the vortex chimney 51, in the vortex chimney 51 to the upper part of the vortex chimney 51 by the Langke-Hilsch effect as in the vortex tube. The hot air 51b is discharged, and cold air 51c is sent out to the lower part of the vortex chimney 51. The air discharged from the vortex chimney 51 is a vortex having a considerable circumferential speed. By using such vortex energy, the hot turbine 55 of the variable wing is arranged on the upper side of the vortex chimney 51 and the cold turbine of the variable wing is formed on the lower side. By operating 56, a significant amount of power can be generated. In addition, the cold air (51c) generated in the lower portion of the vortex chimney 51 can be utilized for cooling the underground storage, such as under the ground. In addition, in the VJ explanatory drawing of FIG. 5 (a), in relation to the vortex amplifier VJ, the pressurized air produced by the solar chimney 52 is introduced into the vortex amplifier, and the excess inflow air is introduced using the Coanda effect. Along with this, the process of supplying doubled pressurized air to the vortex chimney 51 is described. 5 (b) is a BB plan view of the solar vortex power generation system 50 of the present invention, the vortex chimney 51 is located in the center, and there is a solar chimney 52 for supplying pressurized air around such a solar chimney ( 52 is shown surrounded by a solar collector 53 for introducing air from the circumferential surface with air having a pressure and temperature somewhat higher than the outside pressure.

6 is an embodiment in which the solar vortex chimney power generation system 60 is configured in the form of a village. The vortex chimney 61 located at the center is constructed with a vortex chimney and a plurality of solar chimneys 62. In the fields, residential apartments are constructed at the same time to form a medium-sized village, and crops are grown on the ground under the solar collector 63 surrounding these chimney buildings. Opening the line (100), and can be used as a low-temperature storage room with a large amount of cold air generated from the vortex chimney 61 by creating a storage room for storing agricultural products in the basement.

Now, when designing the scale of a solar vortex power generation system with a generation of 200 MW as a medium village with 50,000 households, the vortex chimney has a diameter of 100 m and a height of 900 m. The eight solar chimneys to supply pressurized air have a diameter of 30 m and a height of 270 m. Each of the solar collectors surrounding them has a radius of 800 m with a total area of 16 km ² . It is economical to completely replace the existing electric power system by satisfying all the electric power required and supplying power to the outside.

[references]

Mullett LB. The solar chimney overall efficiency, design and performance. International Journal of Ambient Energy 1987; 8 (1): 35-40

2. L.M. Michaud Vortex Process for capturing mechanical energy during upward heat-convection in the atmosphere Applied Energy 62 (1999) 241-251

3. Ronald L. Conte Jr. The Wind from the Sun Power Plant

4. J. Schlaich and etc. Design of Commercial Solar Updraft Tower Systems-Utilization of Solar Induced Convective Flows forf Power Generation

5. Henri Coanda Propelling Device US Patent No. 2,108,652 patented on Feb. 15, 1938

6.A Short Course on Vortex Tubes and Application Notes attached to K.J.L stone and etcs. A thermally controlled test chamber for centrifuge and laboratory experiments, 1995

7. Martin C. Jischke and Massod Parang, ON TORNADO FUNNELS, Proc. Okla. Acad. Sci. 58, pp 81-87 (1978)

8. Hilsch, R. 1947, The use of expansion of gases in a centrifugal field as a cooling process. Review of scientific Instruments, 18, PP108-113

Ranque, G.J., 1934. Method and apparatus for Obtaining from a fluid under Pressure Two Outputs of Fluid at Different Temperatures. US Patent No. 1,952,281

As described above, the present invention collects the radiant heat of the sun rich in the earth with a solar collector, using the chimney effect of the existing solar chimney, to act as a booster for supplying pressurized air to the vortex chimney, the main engine In this case, in order to supply more air volume at the same pressure, a vortex amplifier using a Coanda effect was used to adjust the supply amount to the vortex chimney, the main engine, and to supply sufficient pressurized air. By introducing it into the vortex chimney, the vortex chimney with the Lange-Hilsch effect discharges hot air with a circumferential speed above the speed of sound in the top direction and a cold air vortex below the chimney. To move the cold turbine of the variable wing downwards The present invention, which is composed of a system to generate electricity, is capable of generating 200 MW, not only to supply necessary electricity to the residents of the relevant area of 2 million households, but also to place the rainfall on the top side of the solar collector, on the circumferential surface of the collector. Can be collected in the storage tank and supplied to the greenhouse water under the water supply or solar collector, and cold reservoirs can be installed in the basement by using cold air sent to the bottom of the vortex chimney. It can also store crops produced on the ground below solar collectors. Using the above effects of the present invention, by using the solar heat in the area to build an eco-friendly city that can supply and supply power, water production, procurement and storage of crops, independent living area of the local people It can also be used as.

In addition, the present invention can achieve the same effect without requiring a large area, such as a solar collector, if the solar wind blowing from the water to the pressurized air required for the main engine vortex chimney.

Ultimately, the present invention does not use any materials other than environmentally friendly air to produce power for local residents and industries. It is an eco-friendly and economically effective power generation system that can completely replace the hydroelectric power generation system causing the flooding and submerged area, tidal power generating irregular power or wind power generation system.

1 (a) and (b) is a conceptual diagram of a conventional solar chimney power plant

2 is a conceptual view of the implementation of the free vortex generation of another inventor

3 is a working principle diagram of a conventional vortex tube

4 (a) and 4 (b) are conceptual implementation perspective views and cross-sectional views of a solar vortex power plant using a plurality of solar chimneys of the present invention as booths.

FIG. 5 is a cross-sectional view of a movable flow cross section and a vortex amplifier of a solar vortex power plant using a plurality of solar chimneys of the present invention.
6 is a perspective view of a medium-sized village including a multi-family solar busta and a vortex chimney and an apartment and a multi-purpose building to be constructed as columns.

Claims (6)

In the solar vortex chimney power plant which collects the solar heat to generate pressurized air as a chimney effect of the solar busta chimney, and introduced into the solar vortex chimney to form a vortex inside the chimney for power generation; -Solar collectors that receive radiant heat from the sun -Solar buster chimney of multiple units with chimney effect according to temperature and pressure difference caused by solar heat -Pressurized air turbocompressors in the corresponding booth chimneys; -Vortex chimneys, the main generating engine that receives pressurized air from the compressor -Hot turbine with variable wing mounted on top of vortex for practical power generation Also consists of cold turbines of variable vanes installed under the vortex chimney; A solar vortex chimney power plant with booths of multiple solar chimneys capable of producing large amounts of power from the two turbines. The method of claim 1, wherein for transportation, a solar collector having a circumferential surface of about 2 meters, except for a 5 meter high entry passage, and compressed solar air having a relative pressure of 2.0 BAR or more at a plurality of solar chimneys connected to the collector are continuously produced. A solar vortex chimney power plant with a booth of multiple solar chimneys with air turbo compressors. The method of claim 1, wherein in supplying pressurized air to the vortex chimney, which is the main engine of the present invention, the pressurized air is supplied directly to the vortex chimney from a pneumatic compressor in the solar chimney, which absorbs solar heat and has a chimney effect. Solar vortex chimney power plant with multiple solar chimneys to boost compressed air with doubled capacity using Vortex amplifier with Coanda effect According to claim 1, wherein the main engine of the present invention is installed on the top of the vortex chimney hot air of a high speed circumferential speed generated by the Langke-Hilsh effect of the variable wing hot turbine, the lower air is sent out as cold air A solar vortex chimney power plant using a cold turbine with a variable wing to boost energy and boosting a large number of solar chimneys in which a large amount of power is produced from a plurality of turbines. The medium-sized village of claim 1, wherein crops are cultivated in the ground below the solar collector, a residential apartment is constructed along with the solar chimney, and a vortex chimney located in the center of the present invention forms a medium-sized village. Solar vortex chimney power plant with multiple solar chimneys According to claim 5, Cold storage in the basement of the vortex chimney to utilize the cold air discharged to the lower part of the vortex chimney of the solar vortex chimney power plant with the solar chimney of the present invention for the storage of crops grown under the solar collector Solar vortex chimney power plant with multiple installed solar chimneys

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