CN112196742A

CN112196742A - Intelligent power generation system combining multiple functions of wind, light, water and gas such as sea, land, mountain and valley wind

Info

Publication number: CN112196742A
Application number: CN202011050588.3A
Authority: CN
Inventors: 李士明
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-29
Filing date: 2020-09-29
Publication date: 2021-01-08

Abstract

The invention discloses a wind, light, air and water multifunctional combined intelligent power generation system for sea, land, mountain and valley wind and the like. The invention is a multifunctional combined intelligent power generation system, changes natural resources into permanent energy, meets the requirements of time-of-year and localization, and thoroughly solves the energy problem of human beings.

Description

Intelligent power generation system combining multiple functions of wind, light, water and gas such as sea, land, mountain and valley wind

Technical Field

The invention relates to the field of resources and energy, in particular to an intelligent power generation system combining wind, phosgene and water, such as sea, land, mountain and valley wind, and the like.

Background

Sea breeze and land breeze (sea breeze and land breeze) is a day-to-day changing wind system formed near the coast due to uneven heating of the sea and land. When the basic airflow is weak, the wind blows from the sea to the land in the daytime and blows from the land to the sea at night. The former is called sea wind, the latter is called land wind, and the former is called sea-land wind. The horizontal range of sea, land and wind can reach dozens of kilometers, the vertical height reaches 1-2 kilometers, and the period is one day and night. In the daytime, the earth surface is heated by solar radiation, and the temperature on the land is significantly higher than that on the near ocean because the land soil has much smaller thermal capacity than that of the sea water and the land heats up much faster than the ocean. The air column on land is subjected to thermal expansion to form air temperature (T) and air pressure (p) distribution as shown in fig. 1, and under the action of horizontal air pressure gradient force, the air above the ground flows from the land to the sea, then sinks to the low altitude, flows from the sea surface to the land, and rises again to form low-level sea wind and sea wind circulation on a vertical section. The sea wind starts every morning until evening, and is strongest in the afternoon. After sunset, land cooling is faster than ocean; by night, when the temperature of the sea is higher than that of the land, the thermal circulation opposite to that of the day is generated to form low-level land wind and land wind circulation on a vertical section. The temperature difference between sea and land is greater in the daytime than at night, so the sea wind is stronger than the land wind. If the sea wind is forced to rise along the hillside, cloud layers are often generated. In the lake and land boundary of a larger lake, tidal and terrestrial wind similar to the circulation of sea and terrestrial wind can be generated. Sea wind and lake wind have the function of relieving summer heat for residents along the shore. On a larger island, the sea wind in the daytime is radiated from the periphery to the island, and the sea wind at night is radiated from the island to the periphery. Therefore, the island is rainy in the daytime and sunny at night. For example, the south-ocean island of china, the maximum precipitation intensity within a day occurs at the time of the strongest ocean wind exposure in the afternoon.

In the wind system of local day change caused by uneven heating of the hillside and valley, when the basic airflow is weak, the wind direction of the hillside at night regularly changes, in daytime, the hillside is heated by solar radiation, so that the temperature of the air contacting with the hillside is higher than that of the air at the same height in the periphery due to more heating, the air columns are heated and expanded to form the distribution of air temperature (T) and air pressure (P) as shown in figure 2, under the action of the horizontal air pressure gradient force, the upper air flows from the hillside to the valley, then flows from the valley to the hillside and then rises along the hillside, and thus the circulation of the valley air and the valley air blown from the valley to the hillside is formed. At night, the temperature of the air on the hillside is cooled quickly due to the radiation cooling of the hillside, and the temperature of the air on the same height in the valley is cooled slowly, so that the circulation opposite to that in the daytime is formed, namely, the circulation of the mountain wind and the mountain wind blown from the hillside to the valley is formed. The temperature difference caused by heating the hillside in the daytime is larger than that caused by radiation cooling at night, so that the wind speed of the valley wind is larger than that of the mountain wind. When the valley wind slides up along the hillside, the mountain top cloud can be formed, and sometimes even rain gusts occur. The characteristics of the mountain valley wind have close relations with the slope, the slope direction, the topographic conditions of the mountainous area and the like. When the valley is deep and the slope is south, the wind is most abundant in the valley. But its cycle is a day and night.

Disclosure of Invention

The purpose of the invention is: the designed wind, phosgene and water multifunctional combined intelligent power generation system is a multifunctional combined intelligent power generation system, changes natural resources into permanent energy, meets the requirements of time-of-year and localization, and thoroughly solves the energy problem of human beings.

The technical solution of the invention is as follows: the multifunctional combined intelligent power generation system comprises a ground water storage tank, a water-gas storage tank, an internal thread vertical coil pipe, a combined Laval power generator set, a spherical light power generator, a conical light power generator, a wind-ball-type wind-light combined generator and a wind-cone-type wind-light combined generator; the method is characterized in that a ground reservoir is installed at a low position, a water and gas storage pool is installed at a high position, two internal thread vertical coils are installed between the ground reservoir and the water and gas storage pool in parallel, one ends of the two internal thread vertical coils are respectively communicated with the water and gas storage pool through intelligent valves, the other ends of the two internal thread vertical coils are respectively communicated with a combined Laval power generator set, the ground reservoir is connected with the internal thread vertical coils through pipes, a spherical light power generator, a conical light power generator, a wind spherical wind and light combined generator and a wind and cone wind combined generator are installed in a space between the ground reservoir and the water and gas storage pool, and the whole intelligent power generation system capable of combining wind, water, gas and water such as sea-land wind.

The combined Laval generator set is formed by connecting a plurality of Laval generators in parallel; each Laval generator comprises a Laval pipe, a power generation and gas generation dual-purpose machine and a gas turbine generator, wherein the Laval pipe comprises a contracted pipe, a throat pipe and an expanded pipe, one end of the throat pipe is communicated with the contracted pipes with two opposite horn mouth directions, the other end of the throat pipe is communicated with the expanded pipe, the expanded pipe is communicated with an internal thread vertical coil pipe, the power generation and gas generation dual-purpose machine is installed in the contracted pipe, and the gas turbine generator is installed in the throat pipe; the first door and the second door are respectively arranged at the bottoms of the two reducing pipes with the horn mouth in opposite directions.

Furthermore, the plurality of expanding pipes are evolved into one expanding pipe in a serial connection mode and penetrate through the bottom of the internal thread vertical coil pipe.

Furthermore, a pressure regulating valve is arranged on the water vapor storage pool.

Furthermore, the ground water reservoir is communicated with the water source.

The invention has the advantages that:

firstly, by utilizing the day and night characteristics of the sea-land wind and the mountain-valley wind, the sea wind is the sea wind in the daytime, the land wind is the night wind, the sea wind is larger in the daytime than the land wind in the night, and all-dimensional all-weather power generation is realized.

And secondly, a Laval tube is adopted, no wind can be generated, small wind can be changed into stroke, the stroke can be changed into big wind, and the wind can be generated in 365 days in one year and 8760 hours.

And thirdly, the dual-purpose machine for generating electricity and generating gas is adopted, gas is generated while wind power is generated, the gas generation cost is not increased, and the cost is low and the benefit is high.

Fourthly, the large power station is provided with a water-gas storage pool, gas rotates relatively in the internal thread vertical coil pipe, the gas is pumped to one direction and is pumped into the water-gas storage pool, and the gas in the water-gas storage pool is used for power generation.

And fifthly, utilizing the principle of a hose to rotate the air water of the ground reservoir at a high speed through the threads of the internal thread vertical coil pipe, and lifting the ground reservoir to the upper air water storage pool to generate the air water power.

Sixthly, the air, water, wind and light can be operated in a closed mode, a certain pressure in the pipeline is kept, the pressure regulating valve is automatically opened to regulate the pressure when the pressure exceeds the specified pressure, and the pressure regulating valve is automatically closed when the pressure reaches the specified pressure, so that the intelligent operation is realized.

Seventhly, the wind direction is automatically adjusted through the intelligent valve, the first door is opened to put in sea wind in the daytime, and the second door is opened to put in land wind at night.

And eighthly, the ground reservoir is communicated with the sea, a water source is communicated, the water and gas quantity is continuously supplemented for the system, and a sufficient power generation gas source is ensured.

Nine, two internal thread vertical coil go up through connection combination Laval generating set, and combination Laval generating set is connected in parallel by a plurality of Laval generator and is constituteed, guarantees to generate electricity throughout the year.

And tenthly, mounting a spherical light power generator, a conical light power generator, a wind spherical wind-light combined generator and a wind conical wind-light combined generator in the space between the ground reservoir and the water-gas reservoir, and performing wind-light-water-gas multi-energy combined power generation.

The invention belongs to a perpetual resource energy system, adopts a Laval tube and an internal thread vertical coil tube, generates wind automatically, accelerates automatically, combines a power generation and gas generation dual-purpose machine, generates power with low cost and high benefit, and thoroughly solves the energy problem of human beings.

Twelve places where the energy can be used for producing energy, and the operation is performed in the same place, so that the west electricity and the east electricity are not needed, and the north coal and the south are not needed.

Drawings

FIG. 1 is a schematic diagram of the sea-land wind;

FIG. 2 is a schematic view of the interior of a valley;

fig. 3 is a schematic diagram of the present invention.

In the figure: the wind power generation system comprises a ground water storage tank 1, a water-gas storage tank 2, an internal thread vertical coil pipe 3, a combined Laval power generation unit 4, a spherical light power generator 5, a conical light power generator 6, a wind sphere type wind-light combined generator 7, a wind cone type wind-light combined generator 8, an intelligent valve 9, a power generation and gas generation dual-purpose machine 10, a gas turbine generator 11, a contracted pipe 12, a throat pipe 13, an expanded pipe 14, a first door 15, a second door 16 and a pressure regulating valve 17.

Detailed Description

The technical solution of the present invention is further described below with reference to the accompanying drawings, but the technical solution is not to be construed as being limited thereto, and the adaptive modifications based on the technical solution are within the scope of the present invention.

As shown in fig. 3, the multifunctional combined intelligent power generation system comprises a ground reservoir 1, a water-gas storage pool 2, an internal thread vertical coil pipe 3, a combined laval power generator set 4, a spherical light power generator 5, a conical light power generator 6, a wind spherical wind-solar combined generator 7 and a wind conical wind-solar combined generator 8; the method is characterized in that a ground reservoir 1 is installed at a low position, a water and gas storage pool 2 is installed at a high position, two internal thread vertical coils 3 are installed between the ground reservoir 1 and the water and gas storage pool 2 in parallel, one ends of the two internal thread vertical coils 3 are respectively communicated with the water and gas storage pool 2 through intelligent valves 9, the other ends of the two internal thread vertical coils 3 are respectively communicated with a combined Laval generator set 4, the ground reservoir 1 is connected with the internal thread vertical coils 3 through a through pipe, a spherical light power generator 5, a conical light power generator 6, a wind spherical wind and light combined generator 7 and a wind conical wind and light combined generator 8 are installed in a space between the ground reservoir 1 and the water and gas storage pool 2, and the whole intelligent power generation system with multi-energy combination of air water, such as sea land wind, valley wind and the.

The combined Laval generator set 4 is formed by connecting a plurality of Laval generators in parallel; each Laval generator comprises a Laval pipe, a power generation and gas generation dual-purpose machine 10 and a gas turbine generator 11, each Laval pipe comprises a contracted pipe 12, a throat pipe 13 and an expanded pipe 14, one end of each throat pipe 13 is communicated with the contracted pipes 12 with two opposite bell mouths, the other end of each throat pipe 13 is communicated with the expanded pipe 14, the expanded pipe 14 is communicated with the internal thread vertical coil pipe 3, the power generation and gas generation dual-purpose machine 10 is installed in each contracted pipe 12, and the gas turbine generator 11 is installed in each throat pipe 13; the first door 15 and the second door 16 are respectively arranged at the bottoms of the two reducing pipes with the opposite bell mouth directions.

Furthermore, the plurality of expanding pipes 14 are evolved into one pipe in series and penetrate through the bottom of the internal thread vertical coil pipe 3.

Further, a pressure regulating valve 17 is installed on the water vapor storage tank 2.

Further, the ground reservoir 1 is connected to a water source.

When the device is installed, the ground reservoir 1 is installed at the sea side or the lower part of the hillside or valley land, and the water-gas storage pool 2 is installed at the high position; in the daytime, wind blows to the land from the sea surface or blows to the top of a mountain from a hillside or valley, the first door 15 is opened, the second door 16 is closed, the power and gas generating dual-purpose machine 10 in the shrinkage pipe 12 generates power and gas, and the gas turbine generator 11 in the throat pipe 13 generates power; meanwhile, the air further rotates and accelerates in the internal thread vertical coil 3, is temporarily stored in the water-air storage pool 2, is blown into the other internal thread vertical coil through the regulation and control of the intelligent valve 9, and is used for generating electricity and gas by the electricity and gas generating dual-purpose machine 10 and the gas turbine generator 11 on the other side; moreover, the spherical light power generator 5, the conical light power generator 6, the wind spherical wind and light combined generator 7 and the wind conical wind and light combined generator 8 also generate electricity in the daytime; at night, wind blows to a hillside and a valley from the top of a mountain or blows to the sea from the land, at the moment, the first door 15 is closed, the second door 16 is opened, and the corresponding working machine is started.

Claims

1. The multifunctional combined intelligent power generation system of wind, light, gas and water such as sea, land, mountain and valley wind is characterized in that: the multifunctional combined intelligent power generation system comprises a ground water storage tank (1), a water-gas storage tank (2), an internal thread vertical coil pipe (3), a combined Laval power generator set (4), a spherical light power generator (5), a conical light power generator (6), a wind spherical wind-solar combined generator (7) and a wind conical wind-solar combined generator (8); a ground reservoir (1) is arranged at the lower part, a water vapor storage pool (2) is arranged at the higher part, two internal thread vertical coils (3) are arranged between the ground reservoir (1) and the water vapor storage pool (2) in parallel, one end of each internal thread vertical coil (3) is respectively communicated with the water vapor storage pool (2) through an intelligent valve (9), the other ends of the two internal thread vertical coils (3) are respectively communicated with a combined Laval generator set (4), the ground reservoir (1) is connected with the internal thread vertical coils (3) through a through pipe, a spherical light power generator (5), a conical light power generator (6), a wind spherical wind-solar combined generator (7) and a wind conical wind-solar combined generator (8) are arranged in the space between the ground reservoir (1) and the water-gas storage pool (2), and the whole intelligent power generation system with wind, light, gas and water multi-energy combination such as sea, land, mountain and valley wind is formed.

2. The system of claim 1, wherein the system comprises: the combined Laval generator set (4) is formed by connecting a plurality of Laval generators in parallel; each Laval generator comprises a Laval pipe, a power generation and gas generation dual-purpose machine (10) and a gas turbine generator (11), each Laval pipe comprises a contracted pipe (12), a throat pipe (13) and an expanded pipe (14), one end of each throat pipe (13) is communicated with the contracted pipes (12) with two opposite bell-mouthed directions, the other end of each throat pipe (13) is communicated with the expanded pipe (14), each expanded pipe (14) is communicated with the internal thread vertical spiral pipe (3), the power generation and gas generation dual-purpose machine (10) is installed in each contracted pipe (12), and the gas turbine generator (11) is installed in each throat pipe (13); the first door (15) and the second door (16) are respectively arranged at the bottoms of the two reducing pipes with the bell mouth in opposite directions.

3. The system of claim 2, wherein the system is characterized in that: the plurality of expanding pipes (14) are evolved into one pipe in a serial connection mode and penetrate through the bottom of the internal thread vertical coil pipe (3).

4. The system of claim 1, wherein the system comprises: the water-gas storage pool (2) is provided with a pressure regulating valve (17).

5. The system of claim 1, wherein the system comprises: the ground reservoir (1) is communicated with a water source.