JPH1070941A - Preventing method of warming of the earth - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a preventing method of the warming of the earth by positively balancing the heat energy on the earth. SOLUTION: The earth's surface heat is thrown out to midair by placing a pipe 13 at a position higher than a relatively low cloud 12 because the cloud inhibits the heat radiation on the earth 10 in night 16, forming an air intake at the bottom of the pipe 13, opening the top end of the pipe 13 in the atmospheric air, and allowing the earth's surface air to rise in the pipe 13 and the earth's surface heat to emit to midair. Also, the top and bottom ends of the pipe 13 are sealed, a volatile liquid is charged to construct a heat-pipe, the ground heat at the bottom part of this heat pipe 13 is absorbed to vaporize the inner liquid, and the vaporized gas is raised to the top end of the heat pipe 13 to radiate the heat to midair, liquefied and circulated to the bottom of the heat pipe 13, thereby, the ground heat is emitted to the atmosphere. These processes inhibit the warming of the earth.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for preventing global warming, which balances the energy of heat absorption and heat radiation on the earth to prevent global warming.

[0002]

2. Description of the Related Art Since ancient times, heat energy on the earth 10 has been such that it obtains energy from the sun 11 from the sun 11 in the daytime 15 and radiates it at night 16 and also burns wood at best.

However, in modern society, as civilization and mechanization have progressed, energy from oil, gas, uranium, and other fossils and ores inside the earth has been extracted and used, resulting in adverse effects due to global warming. Is starting to shout.

[0004]

However, in order to eliminate such an imbalance between heat absorption and heat radiation of the earth's thermal energy, it has heretofore been only a passive method of not using wasteful energy. Yes, no attempt was made to aggressively balance them.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method for actively balancing thermal energy on the earth and preventing global warming.

[0006]

In a first embodiment of the present invention, a pipe 13 is set higher than a relatively low cloud 12 which hinders heat radiation at night 16 and air is provided at the lower end of the pipe 13. By forming an intake and opening the upper end of the pipe 13 to the atmosphere, the surface air rises in the pipe 13 and heat of the surface is radiated to the sky. It is a method for preventing the formation of a sapphire.

In a second example of the present invention, a pipe 13 is installed higher than a relatively low cloud 12 which is obstructing heat radiation at night 16, and the upper and lower ends of the pipe 13 are sealed, so that air is A heat pipe is formed by enclosing the liquid 21 which is easy to
The lower end of the heat pipe 13 absorbs the heat of the ground surface to vaporize the liquid 21 inside, and the vaporized gas 22 is raised to the upper end of the heat pipe 13 to radiate heat in the sky to become the liquid 21 again. This is a method for preventing global warming, wherein heat is radiated to the sky by circulating to the lower end of the heat pipe 13.

[0008]

An embodiment of the present invention will be described with reference to FIG. On the earth 10, in the daytime 15, solar energy from the sun 11, heat energy from factories, air conditioners, automobiles, and the like are accumulated on the surface of the earth and the atmosphere.
When it becomes, it radiates this.

However, as described above, unprecedented energy from fossils, ores, etc. inside the earth, such as oil, gas, and uranium, is taken out and used,
The evils of the global warming are starting to be called out.
In order to eliminate such imbalance between heat absorption and heat radiation on the earth, in the present invention, the heat energy on the earth is radiated into the universe and actively balanced to prevent global warming. It is assumed that.

The first embodiment of the present invention, as shown in FIG. 1, employs a relatively low cloud 12 which inhibits thermal radiation at night 16.
The pipe 13 is installed substantially vertically higher than
3 to create a flow of wind from a lower part to an upper part, thereby radiating heat energy on the earth to the universe and actively balancing the heat. That is, several hundred meters
Or a pipe 13 of a height higher than that is erected almost vertically,
A valve 14 is provided inside so as to be freely opened and closed. The lower end of the pipe 13 is open to the ground surface or forms an air intake at a position of several meters to several tens of meters, and the upper end of the pipe 13 is open to the atmosphere.

In such a configuration, during the daytime 15,
With valve 14 closed, valve 1 is turned on at night 16
Open 4. If the cloud 12 is present in the atmosphere, the cloud 12 is considered to be a perfect black body with respect to infrared rays. Therefore, the amount of radiant energy from the cloud 12 to the surface of the ground increases, and the amount of nighttime radiation decreases significantly. However, the presence of the pipe 13 allows the energy on the ground to escape to space for the following reasons.

(1) Since the pipe 13 has a sufficient height, a pressure difference is generated between the lower end and the upper end, so that the air on the ground rises as a vortex and heat of the ground radiates to the sky at that time. Is done. (2) When a material having a heat insulating property is used as the pipe 13, the air inside the pipe 13 has a higher temperature and a lower density than the outside air, so that buoyancy is generated, and a pressure toward the outside is generated above the pipe 13 and an inside pressure is generated below the pipe 13. A pressure is generated towards. Due to such a chimney effect, the air on the ground rises in the pipe 13, and at that time, heat on the ground is radiated to the sky. (3) Since there is no cloud 12 in the atmosphere at the pipe 13, the amount of radiant energy from the cloud 12 to the surface of the ground disappears, and the amount of nighttime radiation increases. Of course, between the clouds 1
In 7, the night radiation is performed without the pipe 13.

The pipe 13 is installed on an uninhabited island or on the sea when there is an adverse effect due to wind or temperature drop due to the air flow in the air intake at the lower part of the pipe 13. When the wind or the temperature needs to be lowered, it may be installed in such a place.

A second embodiment of the present invention will be described with reference to FIG. In the second embodiment, as described above, the pipe 13 is higher than the relatively low cloud 12 which is blocking the heat radiation at night 16.
However, the difference from the first embodiment is that the upper and lower ends of the pipe 13 are sealed, and the liquid
1 to form the heat pipe 13. The lower end of the heat pipe 13 absorbs the heat of the ground surface to vaporize the liquid 21 inside, and the vaporized gas 22 is raised to the upper end of the heat pipe 13 to radiate heat in the sky to become the liquid 21 again. By circulating to the lower end of the heat pipe 13, heat on the ground surface is radiated to the sky to prevent global warming. As the liquid 21, a substance such as alcohol, ammonia, and chlorofluorocarbon which is easily vaporized by the heat of the ground surface is used.

More specifically, the heat pipe 13
It is erected almost vertically at a height of several hundred meters or more. The heat pipe 13 has a double pipe structure including a vaporizing pipe 18 that vaporizes and raises the liquid 21 at a lower portion, and a liquid return pipe 19 that returns the liquid 21 liquefied again at an upper portion to a lower portion. At this time, in the example of FIG.
Inside, the liquid return pipe 19 outside, and in the upper part,
A plurality of contact plates 24 for guiding from the vaporizing pipe 18 to the liquid return pipe 19 when the gas 22 comes into contact and the droplets 23 adhere to the liquid 21 again become inclined.

In the example shown in FIG. 2B, the liquid return pipe 19 is provided inside, and the vaporizing pipe 18 is provided outside, and a plurality of contact plates 24 are provided at an upper portion in an inclined manner as described above. . 2A and 2B, the vaporizing pipe 18
, A valve 14 that closes at daytime 15 and opens at nighttime 16
Is provided. If necessary, heat pipe 13
Heat absorbing fins 20 for efficiently absorbing heat
Is provided. Similar radiating fins may be provided above the heat pipe 13.

In the above configuration, during the daytime 15, the operation as the heat pipe 13 is stopped by closing the valve 14. At night 16, when the valve 14 is opened, heat of the ground surface is absorbed by the heat absorbing fins 20 at the lower end of the heat pipe 13, and the liquid 21 inside the heat pipe 13 is vaporized. This vaporized gas 22 rises to the upper end of the heat pipe 13 through the vaporizing pipe 18. In the sky above the heat pipe 13, heat is radiated and the gas 22 becomes the liquid 21 again, and the droplet 23 adheres to the contact plate 24 and is guided to the liquid return pipe 19. The liquid 21 travels along the inner wall of the liquid return pipe 19, falls below the heat pipe 13, is heated again, and is vaporized to become a gas 22. By circulating such an operation, the earth surface heat is radiated to the sky to prevent global warming.

2A and 2B, the heat pipe 13
Has a double structure of the vaporization pipe 18 and the liquid return pipe 19, but the present invention is not limited to this, and may be a single simple pipe.

[0019]

According to the present invention, a heat pipe 13 higher than a relatively low cloud 12 obstructing heat radiation is installed, and an air intake is formed at a lower end of the heat pipe 13.
By opening the upper end of the heat pipe 13 to the atmosphere, the air on the ground rises inside the heat pipe 13 and the heat on the ground is radiated to the sky, so that the following effects are obtained.

(1) Since the pipe 13 has a sufficient height, a pressure difference is generated between the lower end and the upper end, so that the air on the ground rises as a vortex, and at this time, heat on the ground radiates to the sky. Is done. (2) When a material having heat insulating properties is used for the pipe 13, the air inside the heat pipe 13 has a higher temperature and a lower density than the outside air, so that buoyancy is generated, and a pressure outward is generated above the heat pipe 13 and lower. Creates an inward pressure.
Due to such a chimney effect, the air on the ground rises in the heat pipe 13 and, at that time, the heat on the ground is radiated to the sky. (3) The upper and lower ends of the pipe 13 are sealed, and the heat pipe 13 is formed by enclosing the liquid 21 which is easily vaporized therein. The liquid 21 is vaporized, and the vaporized gas 2
2 can be raised to the upper end of the heat pipe 13 to radiate heat in the air, become the liquid 21 again, circulate to the lower end of the heat pipe 13, and radiate heat on the ground to the sky very efficiently.

Therefore, it is possible to positively balance the imbalance between heat absorption and heat radiation on the earth.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram illustrating a first embodiment of a global warming prevention method according to the present invention.

FIG. 2 is a view for explaining a second embodiment of the global warming prevention method according to the present invention.
8B is a cross-sectional view in which the liquid return pipe 19 is set to the outside and the liquid return pipe 19 is set to the outside. FIG.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 ... Earth, 11 ... Sun, 12 ... Cloud, 13 ... Pipe or heat pipe, 14 ... Bulb, 15 ... Daytime, 16 ... Night, 17 ... Cloud break, 18 ... Evaporation pipe, 19 ... Liquid return pipe, 20 ... heat absorbing fins, 21 ... liquid, 22 ... gas, 23 ... drops, 24 ... contact plate.

Claims (4)

[Claims] 1. A pipe 13 is installed higher than a relatively low cloud 12 obstructing heat radiation at night 16 and an air intake is formed at a lower end of the pipe 13. A method for preventing global warming, characterized in that the ground surface air rises in the pipe 13 by releasing the heat to the inside of the pipe 13 and heat of the ground surface is radiated to the sky. 2. A pipe 13 is installed higher than a relatively low cloud 12 obstructing heat radiation at night 16, the upper and lower ends of the pipe 13 are sealed, and a liquid 21 is easily vaporized inside.
To form a heat pipe 13. At the lower end of the heat pipe 13, heat of the ground surface is absorbed to vaporize the liquid 21 inside, and the vaporized gas 22 is raised to the upper end of the heat pipe 13. By radiating heat in the sky to make the liquid 21 again and circulating it to the lower end of the heat pipe 13,
A method for preventing global warming, characterized by radiating surface heat to the sky. 3. The heat pipe 13 according to claim 2, wherein the heat pipe 13 is erected substantially vertically at a height of several hundred meters or more, and the internal valve 14 is closed at day 15 and opened at night 16. How to prevent global warming. 4. The heat pipe 13 comprises a vaporizing pipe 18 for vaporizing and raising the liquid 21 at a lower part, and a liquid return pipe 19 for returning the liquid 21 liquefied again at an upper part to a lower part. The method for preventing global warming according to claim 2 or 3.