CN216689585U - Wind-solar complementary energy supply double-adsorption-bed continuous air water taking system - Google Patents
Wind-solar complementary energy supply double-adsorption-bed continuous air water taking system Download PDFInfo
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- CN216689585U CN216689585U CN202122773640.4U CN202122773640U CN216689585U CN 216689585 U CN216689585 U CN 216689585U CN 202122773640 U CN202122773640 U CN 202122773640U CN 216689585 U CN216689585 U CN 216689585U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
Abstract
The utility model provides a wind-solar complementary energy supply double-adsorption-bed continuous air water taking system which mainly comprises a wind power generation device, a photovoltaic power generation device, a control box, an accumulator, an inverter, a ventilation steering valve, a fan, a heat reservoir, adsorption beds, a solar air heat collector, a water collection tank, a condenser and a plurality of necessary connecting pipelines; the adsorption bed is used for desorption and providing heat in different modes at daytime and at night, and the desorbed air enters the condenser to be cooled and condensed into liquid and flows into the water collecting tank, so that the effect of taking water from air is achieved.
Description
Technical Field
The utility model relates to the field of water resource saving, in particular to an air water taking system with double adsorption beds and wind energy and solar energy complementary energy supply, wherein the air water taking system can continuously work.
Background
The water in the atmosphere serves as an important component of the water circulation of the biosphere and stores a large amount of water vapor. The atmosphere fresh water is a huge renewable reservoir, and the total amount of the atmosphere fresh water is about one eighth of the total reserves of all rivers and lakes on the earth; when water is captured from the air, hydrologic cycle of the nature is not influenced, and the nature has a strong cyclic regeneration function, lost water can be continuously supplemented, so that water is taken from the air without damaging water balance in the atmosphere.
The most common air water intake system at present is based on the traditional passive water collection and active electric drive air water intake technology; both types of technologies are limited by climatic geographic factors or require large amounts of electrical energy to be consumed and cannot be deployed in most parts of the world.
The utility model utilizes the complementation of wind energy and solar energy as the energy source driven by the system, and the double adsorption beds are alternately carried out, thereby achieving the purpose of continuously taking water from air.
Disclosure of Invention
A wind-solar complementary energy-supplying continuous air water taking system with double adsorption beds mainly comprises a wind power generation device, a photovoltaic power generation device, a control box, an accumulator, an inverter, a ventilation steering valve, a fan, a heat reservoir, the adsorption beds, a solar air heat collector, a water collecting tank, a condenser and a plurality of necessary connecting pipelines; the adsorption bed desorption provides heat in daytime and evening through different modes, continuous circulation of desorption of another adsorption bed is realized while one adsorption bed is adsorbed through two adsorption beds and a plurality of ventilation reversing valves, and the air passing through desorption enters the condenser to be cooled and is condensed into liquid to flow into the water collecting tank, so that the effect of taking water from air is achieved.
The utility model aims to provide a wind-solar complementary energy-supplying double-adsorption-bed continuous air water taking system, wherein a solar air heat collector continuously absorbs solar heat in daytime to provide heat for desorption of an adsorption bed 2; in the daytime, the wind power generation device and the photovoltaic power generation device store the generated electric energy in an electric appliance, and provide heat for desorption of the adsorption bed 1 at night; the two adsorption beds work alternately to make the whole system work continuously, and the desorbed air is condensed into liquid by the condenser and flows into the water collecting tank.
The wind power generation device and the photovoltaic power generation device provide energy for desorption of the adsorption bed at night.
The accumulator stores the electric quantity generated by the wind-solar power generation device in the daytime.
The ventilation steering valve is a device for regulating the air flow direction.
The adsorption bed adopts a grid-shaped structure, and can reach the maximum contact area with air in a limited space.
The heat reservoir can store surplus heat when the heat is sufficient and supplement the heat of air when the heat is insufficient.
Compared with the prior art, the utility model has the beneficial effects that:
1. compared with an intermittent structure, the continuous air water taking device has the advantages of high energy utilization rate and high water yield;
2. compared with the traditional system, the utility model has the advantages of simple circulation, easy maintenance of the device and the like;
3. according to the utility model, wind energy and solar energy are used as energy sources, so that the energy utilization is effectively saved compared with coal power and other modes.
Description of the drawings:
FIG. 1: a schematic diagram of a wind-solar complementary energy-supplying double-adsorption-bed continuous air water taking system.
In fig. 1, 1 is a wind power generation device, 2 is a photovoltaic power generation device, 3 is a control box, 4 is an accumulator, 5 is an inverter, 6-1, 6-2, 6-3, 6-4, 6-5, 6-6, 6-7, 6-8 is a ventilation steering valve, 7-1, 7-2 is a fan, 8 is a heat reservoir, 9 is an adsorption bed, 10 is a solar air collector, 11 is a water collection box, and 12 is a condenser.
The specific implementation mode is as follows:
the utility model provides a wind-solar complementary energy-supply double-adsorption-bed continuous air water taking system by utilizing a wind energy and solar energy supply mode, and the utility model is described in detail by combining the attached drawings of the specification:
as shown in figure 1, the wind-solar complementary energy supply double-adsorption-bed continuous air water taking system mainly comprises a wind power generation device (1), a photovoltaic power generation device (2), a control box (3), an accumulator (4), an inverter (5), a ventilation steering valve (6), a fan (7), a heat reservoir (8), adsorption beds (9), a solar air heat collector (10), a water collection tank (11), a condenser (12) and necessary connecting pipelines.
The system is installed, the wind power generation device (1), the photovoltaic power generation device (2) and the control box (3), the electric storage device (4) and the inverter (5) are connected, the inverter (5) is connected with the adsorption bed (9-1), air outlets of the adsorption bed (9-1) and the adsorption bed (9-2) are respectively connected with the ventilation reversing valves (6-5) and (6-6), the water collecting box (11) is placed below the condenser (12), air passing through the condenser is communicated with the solar air heat collector (10), then the heat storage device (8) is connected, and the fan (7) blows air into the adsorption bed (9).
The system operates in daytime, the wind power generation device (1) and the photovoltaic power generation device (2) store generated electric quantity in the accumulator (4), high-temperature and low-humidity air is blown into the adsorption bed (9-1) through the ventilation reversing valves (6-1 and 6-3) by the fan (7-1) to be adsorbed into dry air, then enters the solar air heat collector (10) through the ventilation reversing valves (6-5 and 6-7) through the condenser (12) to be heated, the high-temperature and low-humidity air flows into the heat storage box (8), the heat storage box (8) is filled with phase change heat storage materials, copper pipes are inserted into the phase change heat storage materials, air flows through the copper pipes, then enters the adsorption bed (9-2) through the fan (7-2), the composite adsorbent in the adsorption bed (9-2) is heated and desorbed to produce high-humidity air, and the high-humidity air flows through the ventilation reversing valves (6-6, 6-8) enters a condenser (12) to be cooled, wherein the water vapor is condensed into liquid to flow into a water collecting tank (11), the low-temperature dry air enters a heater to be heated into high-temperature dry air, and enters an adsorption bed (9-2) to circulate.
At night, low-temperature and high-humidity air enters the adsorption bed (9-2) through the fan (7-2) and the ventilation reversing valves (6-2, 6-4), water vapor is adsorbed to form dry air, and then the dry air enters the condensation pipe (12) through the ventilation reversing valves (6-6, 6-8); at the moment, the adsorption bed (9-1) is electrically heated and heated by utilizing the electric energy in the accumulator (4), the adsorbent in the adsorption bed (9-1) is heated and desorbed to obtain high-humidity air, the high-humidity air enters the condenser (12) through the ventilation reversing valves (6-5 and 6-7) to be cooled, and the water vapor is condensed into liquid flow to flow into the water collecting tank (11).
Claims (2)
1. A wind-solar complementary energy-supply continuous air water taking system with double adsorption beds is characterized by mainly comprising a wind power generation device (1), a photovoltaic power generation device (2), a control box (3), an electric accumulator (4), an inverter (5), a ventilation steering valve (6), a fan (7), a heat accumulator (8), adsorption beds (9), a solar air heat collector (10), a water collection box (11), a condenser (12) and necessary connecting pipelines, wherein the wind power generation device (1) and the photovoltaic power generation device (2) are connected with the control box (3), the electric accumulator (4) and the inverter (5) through cables, and the fan (7) is connected with the ventilation steering valve (6) through nuts; the ventilation steering valve (6) is connected to the inlet of the condenser (12) through a pipeline, and the bottom of the condenser (12) is provided with a small hole which is connected with the upper part of the water collecting tank (11) through a thin hose.
2. The wind-solar hybrid powered double-adsorption-bed continuous air-water taking system according to claim 1, characterized in that the inverter (5) is connected with the heating circuit of the adsorption bed (9) through a cable.
Priority Applications (1)
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CN202122773640.4U CN216689585U (en) | 2021-11-13 | 2021-11-13 | Wind-solar complementary energy supply double-adsorption-bed continuous air water taking system |
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CN202122773640.4U CN216689585U (en) | 2021-11-13 | 2021-11-13 | Wind-solar complementary energy supply double-adsorption-bed continuous air water taking system |
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CN202122773640.4U Active CN216689585U (en) | 2021-11-13 | 2021-11-13 | Wind-solar complementary energy supply double-adsorption-bed continuous air water taking system |
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2021
- 2021-11-13 CN CN202122773640.4U patent/CN216689585U/en active Active
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