CN112377271A - Novel self-generating device - Google Patents

Abstract

The invention discloses a novel self-generating device, which comprises an air compression device, an injection device and a turbine generating device, wherein the air compression device absorbs and compresses external air, the external air passes through the injection device and is injected to turbine blades of the turbine generating device, a fluid heater is also arranged, the external fluid is heated by the fluid heater and is injected into the injection device through negative pressure formed by the flowing of compressed air in the injection device, the heated fluid enters the injection device and is mixed with the compressed air, the compressed air absorbs heat to expand, the pressure is continuously increased and then is injected to the turbine blades of the turbine generating device at high speed, so that a turbine generator is driven to generate electricity, the scheme is adopted, the compressed air is used for injecting the heated fluid by utilizing the siphon principle, the fluid is mixed, absorbs heat to expand, the pressure is increased, and the mixed fluid forms higher speed to be injected to the turbine generating device, the purpose of efficiently driving the generating capacity of the turbine generating set is achieved.

Description

Novel self-generating device

Technical Field

The invention relates to the technical field of power generation, in particular to a self-generating device.

Background

With the rapid development of national economy, the demand for energy is increasing, and although many kinds of power generation devices, such as green energy power generation devices, appear on the market, the mainstream still consumes fossil energy power generation, such as fuel power generation devices, all have the defects that external fossil energy and other energy sources need to be consumed, and how to realize reliable power generation while reducing the dependence on external fossil energy and other energy sources is a problem which needs to be solved urgently.

Disclosure of Invention

In order to solve the problems, the novel self-generating device comprises an air compression device, an injection device and a turbine generating device, wherein the air compression device absorbs and compresses external air, the external air passes through the injection device and is injected to the turbine blades of the turbine generating device, a fluid heater is further arranged, the external fluid is heated by the fluid heater, then passes through negative pressure formed by the flowing of the compressed air in the injection device, the heated fluid is injected into the injection device and is mixed with the compressed air, the compressed air absorbs heat to expand, the pressure continues to rise, and then the external fluid is injected to the turbine blades of the turbine generating device at a high speed, so that the turbine generating device is driven to generate power.

Further, the fluid heater is a solar heat absorber.

The solar heat absorber is adopted, so that the effects of green, pollution-free absorption of solar heat, fluid heating, mature and reliable technology can be achieved.

Further, the temperature of the fluid injected into the injection device is 100-150 ℃.

The temperature of the heat-clearing fluid is 100-150 ℃, and the effect of improving the required generated energy when the mixed fluid is provided for the turbine driver can be achieved under the condition of ensuring the safety.

Furthermore, the flow of the fluid injected into the injection device can be adjusted, and the fluid enters the injection device in an atomization state.

The fluid flow injected into the injection device can be adjusted, the injected fluid enters the injection device in an atomization state, the effect of dynamically adjusting the injected flow according to the generated energy can be achieved, and the injected fluid can be more fully mixed with air and has higher thermal expansion efficiency after atomization.

Further, the fluid heater is a geothermal source heater or a gas burner.

The geothermal source heater or the gas burner is used for heating fluid on the fluid heater so as to enlarge the application range of the fluid heater.

Furthermore, the air compression device needs a power source for compressing air, and the power source is wind energy and tidal energy.

The required power source is wind energy and tidal energy, and the effects of fully utilizing green energy and reducing environmental pollution can be further achieved.

Furthermore, the air compression device is provided with a power source for compressing air and is provided for manpower.

The required power source is provided for human power, and the effects of meeting the body building requirements and recycling energy consumed during human power body building can be achieved.

Further, the fluid is water.

The water is used, so that the effects of easy acquisition, low cost and no pollution to the environment can be achieved.

Further, the injection device is a venturi.

By using the Venturi tube, the effects of simple and compact structure and convenient maintenance can be achieved.

Furthermore, the flow cross section of the throat part of the Venturi tube is adjustable in size.

The size of the flow cross section of the throat part of the Venturi tube is adjustable, and the effect of accurately controlling the required generated energy can be further achieved.

Adopt this technical scheme, utilize the siphon principle, compressed air draws the fluid after the injection heating, air and heating fluid mix the back, under certain space, the air heat absorption inflation, pressure continues to promote, the mixed fluid forms higher speed, spout to turbine power generation facility, only need be at the consumption a small amount of energy, under the compressed air condition, draw the fluid of injection and mixed heating, thereby reach at high-efficient drive turbine power generation facility, when improving the generated energy, can reach again and reduce the dependence to fossil energy, and can last reliable work's effect.

Drawings

Fig. 1 is a working principle diagram of the present invention.

Fig. 2 is a schematic diagram of the operation of the air compressor of the present invention.

In the figure, 1-outside air, 2-air compressor, 21-filter screen, 22-air suction pipe, 23-compression blade, 24-compression rotating shaft, 25-air outflow pipe, 26-power source, 3-buffer tank, 31-compressed air injection pipe, 4-injection device, 41-fluid injection pipe, 42-atomizer, 5-fluid heater, 51-sun, 52-heat absorber, 521-heat absorber heat exchange pipe, 522-liquid inlet pipe, 6-turbine generator, 61-turbine driver, 611-driver inflow pipe, 612-turbine blade, 613-driver outflow pipe, 614-heat recoverer, 6141-heat exchange pipe, 62-turbine shaft, 63-generator, generator, 631-generator power supply output end, 7-stop valve, 8-energy storage device, and 81-energy storage device power supply input end.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution of the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1, a novel self-generating device comprises an air compressor 2, an injector 4, a turbine generator 6, the air compressor 2 absorbs and compresses the external air 1, the external air passes through the injector 4 and is injected to the turbine blades 612 of the turbine generator 6, the external fluid passes through a stop valve 7 and flows into a heat recovery device 614 arranged at an outlet pipe 613 of a driver, the external fluid flows in a heat recovery device heat exchange pipe 6141, absorbs the heat of the mixed fluid flowing out through the outlet pipe 613 of the driver, enters a fluid heater 5 for heating, then flows out of the fluid heater 5, the compressed external air 1 is injected into the injector 4 through negative pressure formed in the flowing process of the injector 4, is mixed with the compressed external air 1, the compressed external air 1 absorbs heat and expands, the pressure continues to rise, and then passes through an inlet pipe 611 of the driver, the high-speed jet is directed to the turbine blades 612 of the turbine driver 61, thereby driving the generator 64 of the turbine power generation device 6 to generate electricity.

In practical use, in order to improve the driving efficiency, a nozzle may be disposed at the driver inflow pipe 611, the mixed air flows out of the injection device 4 and then enters the nozzle, and after the injection through the nozzle, the mixed air continues to pass through the driver inflow pipe 611 and is injected at high speed toward the turbine blades 612 of the turbine driver 61, so as to drive the generator 64 of the turbine power generation device 6 to generate power, or the driver inflow pipe 611 is changed into a nozzle and is directly used as the nozzle injection.

The flow cross-sectional area of the nozzle orifice can be fixed or dynamically adjusted, so that the speed of the sprayed fluid can be adjusted.

The turbine power generation device 6 comprises a turbine driver 61 and a generator 63, wherein turbine blades 612 are coaxially arranged in the turbine driver 61 and fixedly connected through a turbine shaft 62, the turbine shaft 62 extends, the generator 63 is coaxially connected, and the turbine blades 612 rotate to drive the turbine shaft 62 to rotate, so that the generator 63 is driven to generate power.

The mixed fluid sprayed at high speed to the turbine blades 612 of the turbine driver 61 pushes the turbine blades 612 to rotate in the turbine driver 61, and then flows out through the driver outflow pipe 613, is heat-recovered by the heat recovery unit 614, and is finally discharged to the outside atmosphere.

Because the siphon principle is adopted to inject the fluid, and the fluid is continuously supplied to the turbine power generation device 6 for power generation after being mixed, reliable power generation can be continuously realized.

In order to solve the problem of pollution-free fluid heating, preferably, the fluid heater 5 is a solar heat absorber, and the solar heat absorber is adopted, so that the fluid heater can absorb heat of the sun 51 in a green and pollution-free manner, and the technology is mature and reliable, and is specifically used as:

the external fluid flows into the heat recovery unit 614 disposed at the outlet pipe 613 of the driver through the stop valve 7, primarily absorbs the heat of the mixed fluid flowing out through the outlet pipe 613 of the driver, then flows into the heat absorber 52 of the solar heat absorber through the liquid inlet pipe 522, flows in the heat exchange pipe 521 of the heat absorber 52, absorbs the heat of the sun 51, increases the temperature, then flows out of the heat absorber 52, enters the fluid injection pipe 41, atomizes the heated fluid through the atomizer 42, is compressed air flowed in the injection device 4, forms negative pressure, is injected into the injection device 4, is mixed with the compressed air, and the compressed air is heated and expanded, and the mixed fluid is injected to the turbine blade 612 of the turbine driver 61 at high speed for power generation.

In order to improve the power generation when the mixed fluid is sprayed to the turbine blades 612 of the turbine driver 61 at a high speed on the premise of ensuring safe use, the temperature of the fluid injected into the injection device 4 is preferably 100-150 ℃, the temperature of the fluid can be determined according to the type of the used fluid, for example, water can be controlled at 100 ℃, and if the water is in a gaseous state, the temperature can be continuously increased to 150 ℃; for another example, the temperature of the heat conducting oil can be controlled at 150 ℃.

In practical use, since the fluid and the compressed air are mixed and finally discharged to the atmosphere after the turbine blade 612 is pushed to rotate, the fluid without environmental pollution, such as water, is preferably used.

Of course, the external air 1 may be recycled according to the actual usage, at this time, a circulating air duct (not shown) may be provided, one end of the air duct is connected to the external position of the heat recovery unit 614, and the other end of the air duct is connected to the suction position of the external air 1, so as to finally complete the fluid mixture pushing the turbine blades 612 to rotate, and the fluid mixture is not discharged to the atmosphere, but recycled through the air duct.

By adopting the air channel circulation mode, the fluid mixture is not discharged to the atmosphere after finally pushing the turbine blade 612 to rotate, but is recycled, so that the fluid which pollutes the environment, such as heat conduction oil and the like, can be used, the pollution to the external environment caused by the discharge is avoided, and the fluid selection range can be greatly expanded.

In addition, the two discharging modes can be considered, the air valve is arranged on the circulating air duct to respectively control the circulating air duct and the external atmosphere, when the air valve for controlling the circulating air duct needs to be discharged to the external atmosphere, the air valve for controlling the external atmosphere is closed, the air valve for controlling the external atmosphere is opened, the fluid mixture is finally pushed to rotate the turbine blade 612 and then is directly discharged to the atmosphere, otherwise, the operation is reversed, the air valve is the same as the existing structure, and the description is omitted.

The fluid can be in a gas state, such as carbon dioxide, and the like, and can be directly mixed with the compressed air after being heated, and then is sprayed to the turbine blades 612 of the turbine driver 61 at a high speed for generating power, when the fluid is in the gas state, the fluid can be atomized without the atomizer 42, and when the fluid is in the liquid state, the atomizer 42 can be used for achieving the purposes of more sufficient mixing with the air and higher heating expansion efficiency.

In order to provide a suitable power generation amount according to actual needs, it is preferable that the flow rate of the fluid is adjustable, that is, the fluid enters the injection device 4, and the flow rate of the fluid mixed with the compressed air is adjusted according to the power generation amount, so as to control the mixing ratio of the fluid and the compressed air, and specifically, the flow rate of the fluid entering the flow passage of the atomizer 42, and a device for controlling the size of the flow cross section may be provided, so as to control the size of the flow cross section automatically or manually according to actual needs, so as to achieve the purpose of controlling the mixing ratio of the fluid and the compressed air.

If the fluid is gaseous, means for controlling the size of the flow cross-section may be provided directly in the flow channel before entering the spraying device 4, i.e. in the fluid spraying pipe 41, without the use of the atomiser 42.

In order to allow a wider variety of green energy sources to be used for the fluid heater 5 to heat the fluid, so as to increase the application range of the fluid heater 5, it is preferable that the fluid heater 5 is a geothermal source heater, or a gas burner, in which the geothermal source heater is used to directly heat the fluid, and in which the gas burner is used to heat the fluid by burning combustible gas such as natural gas, or by using electricity generated by solar energy, wind energy, tidal energy, or the like, to heat the fluid by an electric heating method, or by using waste heat of a boiler or the like.

Air compression device 2 is as shown in fig. 2, and air compression device 2 sets up compression blade 23, and compression blade 23 is fixed through compression pivot 24, and compression pivot 24 stretches out air compression device 2, connects power supply 26, utilizes power supply 26 to drive compression pivot 24 and rotates to drive compression blade 23 compressed air, specific compression process is:

after the outside air 1 passes through filter screen 21 prefilter, in flowing into air compressor unit 2 through gas suction pipe 22, compression blade 23 through the drive of external power source 26 rotates, the outside air 1 among the compression entering air compressor unit 2, the air through the compression flows out through gas outflow pipe 25, get into in buffer tank 31, store, compressed air is abundant inflation in buffer tank 31, the velocity of flow reduces, the static pressure increase, then rethread compressed air injection pipe 31, flow in injection apparatus 4.

The power source 26 can adopt green energy such as wind energy, tidal energy, and the electric power generated by the green energy is provided for the motor of the power source 26 to use, and the motor drives the compression rotating shaft 24 to rotate, so as to drive the compression blades 23 to compress air, or the green energy provides mechanical energy, and the mechanical energy is directly driven by connecting the compression rotating shaft 24, so that the green energy is utilized, and the environmental pollution can be reduced.

In practical use, in order to meet the requirements of popular fitness, the power source 26 can also be provided manually, for example, by pedaling, shaking manually or the like, the compression rotating shaft 24 is directly driven to rotate, so as to drive the compression blades 23 to compress air, and thus, the fitness requirements can be met, and the energy consumed during manual fitness can also be recovered.

In addition to the above, sources of power source 26 include, but are not limited to, office rooftop wind energy, sea wind, car travel wind, solar energy, foot traffic, treadmill compression, chemical reactions, gravity, lever teeters, pendulums, micro-currents, farm animals walking randomly, housing certain animals for free forage to move throughout the day, and the like.

In addition to the above structure, the air compressing device 2 may also adopt other structures capable of compressing air, such as a compressor, a centrifugal fan, and the like.

For the maintenance of the injection device 4, it is preferable that the injection device 4 is a venturi tube, which is simple and compact in structure and convenient to maintain, and of course, in practical use, other suitable injection devices, such as a nozzle, may be adopted in addition to the venturi tube.

In use, after further adjusting compressed air and fluid mixture, the flow velocity inside the venturi tube, thereby achieving the goal of accurately controlling the required generated energy, preferably, the size of the flow cross section of the throat of the venturi tube is adjustable, in practical use, a mechanism capable of being automatically or manually adjusted can be arranged at the throat position of the venturi tube, the size of the flow cross section of the throat of the venturi tube can be adjusted, thereby accurately controlling the required generated energy, the structure can adopt a structure commonly used at present, the throat part material can also adopt an elastic material besides a metal material, and the elastic material can be properly deformed according to the flow pressure, thereby further finely adjusting the flow velocity of the mixed fluid, the elastic material can adopt a non-metal material, such as a high polymer rubber material and the like.

The power generated by the turbine power generation device 6 can be output through the generator power output end 631, input into the energy storage device 8 through the energy storage device power input end 81, and then provided for external use.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the embodiment of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a novel self-generating device, includes air compressor arrangement, injection apparatus, turbine power generation facility, the air compressor arrangement absorb, compress the outside air after, through the injection apparatus, spout to turbine power generation facility's turbine blade, its characterized in that still sets up fluid heater, outside fluid process after the fluid heater heating, through compressed air is in the negative pressure that flow among the injection apparatus formed draws to penetrate the heating back fluid and gets into among the injection apparatus, mix with compressed air, compressed air heat absorption expansion, pressure continues to rise the back, high-speed spout to turbine power generation facility's turbine blade to the drive turbine power generation facility generates electricity.

2. A novel self-generating apparatus according to claim 1, wherein said fluid heater is a solar heat absorber.

3. The novel self-generating device according to claim 2, wherein the temperature of the fluid injected into the injection device is 100 to 150 ℃.

4. A novel self-generating apparatus according to claim 3, wherein the flow of fluid injected into said injector is adjustable to achieve atomization in said injector.

5. The new self-generating device according to claim 1, wherein the fluid heater is a geothermal heater or a gas burner.

6. The novel self-generating device as claimed in claim 1, wherein the air compressing device, the power source for compressing air, is wind energy or tidal energy.

7. The novel self-generating device as claimed in claim 1, wherein the air compressor, the compressed air, requires a power source to provide for human power.

8. A novel self-generating device according to any one of claims 1 to 7, wherein said fluid is water.

9. A novel self-generating device as claimed in any one of claims 1 to 7, wherein said injection device is a venturi tube.

10. A novel self-generating apparatus as claimed in claim 9, wherein said venturi throat flow cross-section is adjustable in size.

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