SU1562628A1 - Solar energy unit for heat and cold supply - Google Patents

Abstract

The invention relates to solar technology and makes it possible to increase the efficiency of using solar energy. The solar plant contains a solar collector 1, having a housing 2 with a translucent coating 3, provided with an inlet 4 and an outlet 5 with nozzles and a heat exchanger 6, a storage tank 7 associated with the latter, and an air conditioner 8 including chambers 9 and 10 for heat exchange and moistening respectively, the latter of which has a pallet 11, and the first pallet 19. Air conditioning 8 is connected at the inlet 12 with the atmosphere, and at the outlet 13 - with the room 14. The solar installation also contains a drying chamber 15 connected to the outlet nozzle 5 of the collector 1 through a three-way valve 16, communicate Connected to the inlet 12 of the air conditioner 8. The inlet 4 of the collector 1 is connected to the atmosphere and the room 14. The chamber 9 is made in the form of alternating dry 17 and wet 18 channels, with the dry channels 17 connected to the humidification chamber 10, sprinklers 20 are installed in the wet, sprinkled with the storage tank 7, with the pallet 19 communicating with the latter. The invention provides a decrease in metal consumption. 1 hp f-ly, 1 ill.

Description

dry 17 and wet 18 channels, with dry channels 17 connected to the humidification chamber 10, sprinklers 20 connected to the accumulator tank 7 are installed in the wet, and the pan 19 communicates with the latter. The invention provides a decrease in metal consumption. 1 hp f-ly, 1 ill.

The invention relates to the use of solar energy, in particular to installations for providing loads of heat and coolant supply.

The purpose of the invention is to increase the efficiency of solar energy use.

The drawing shows a prince-al-al scheme of the system of heat and coolness.

The solar plant contains a solar collector 1, having a housing 2 with a translucent coating 3, equipped with an inlet 4 and an outlet 5 nozzles, with a heat exchanger 6 placed in it, a storage tank 7 connected to the latter, and an air conditioner 8 that includes chambers the heat exchanger -9 and the humidifier 10, the latter of which has a pallet 11, while the air conditioner 8 is connected at the inlet 12 with the atmosphere and the output 13 with the room 14. The solar installation further comprises a drying chamber 15 connected to the outlet nozzle 5 of the collector 1 through three-way veins - t Also, 169 communicated also with the inlet 12 of the air conditioner 8, the inlet chat tube 4 of the collector 1 is connected with the atmosphere and the room 14, the heat exchange chamber 9 is made in the form of alternating dry 1 / and humid 18 channels located above the additional base plate 19 -accumulator 7, with the dry channels 17 connected to the humidification chamber 10, and sprinklers 20 connected to the accumulator tank 7

On line 21 of the sprinklers 20 connection to the storage tank 7, a backup heater 22 is installed. In the 10 humidification, the sprinklers 23 are connected to the pallet 41 via the pump 24, $ the pallet 19 is connected to the storage tank 7 via the pump 25

Air conditioner 8 is equipped with a nozzle 26 for exhausting air into the atmosphere and an additional inlet 27 communicating with inlet 12. A pump 25 is connected to

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21 bypass 28. The outlet 29 of the room 14 is provided with an air discharge port 30. The drying chamber 15 is provided with a branch pipe 31. A heat exchanger 32 of the heating cone and a heat exchanger 33 of the hot water duct are connected to the consumer through the backup heater 34. The heat exchanger 33 is connected to the consumer through a backup heater 34. .

Solar plant works as follows (figure 1).

The sun's rays, falling on the surface of the solar collector 1, pass through the translucent coating 3, are absorbed by the surface of the heat exchanger 6, while heating the coolant circulating through the heat exchanger 32 located in the storage tank 7, heating the water in it. The initial cold water enters the heat exchanger 33, is heated and supplied through the backup heater 34 to the consumer.

In summer, the outside air is supplied by the fan 39 to the solar collector 1 through the inlet 4 and to the inlet of the air conditioner 8. In the solar collector 1, the air is heated and supplied through the outlet 5 to the three-way valve 16 to the drying chamber 15 where it processes the item of drying It gives off heat and assimilates moisture, and is emitted through nozzle 31 into the atmosphere. The part of the outside air supplied by the fan-39 to the air conditioner 8 is divided into two streams: to the inputs 12 and 27 ipn of the open valves 35 and 37, the first part goes to the dry ducts 17, the second - to the wet ducts 18S where 20, connected to i by pump 25 via bypass 28, with valve 36 open, water is sprayed from sump 19. A part of the sprayed water is evaporated and discharged with exhaust air into the atmosphere through pipe 26. Air flow

in the channels 17, it is cooled at constant moisture content without contact with water and enters the humidification chamber 10 of the air conditioner 8, where water is pumped from the sump 11 by the sprinkler 23 using the sprinkler 23, adiabatically dampens the air when the temperature decreases, and is fed through the outlet

13 to room 14. To the assimilator, the heat and moisture of the room, the exhaust air through pipe 30 is emitted into the atmosphere.

In winter, the room air

14 through the outlet 29 is taken up by the fan 39 and supplied through the inlet 4 to the solar collector 1, and heated through the outlet 5, the three-way valve 16 when the valves 35 and 37 are closed, enters the inlet 12 to the air conditioner 8. Water heated in the solar collector 1 , from the accumulator tank 7, with the valve 38 open, enters the backup heater 22, if necessary, is heated therein, is fed to the irrigator 20, heats the wall of the dry channels from which the air of the room 14 is heated, heated to a certain temperature in the solar collector In this case, the water is partially cooled, flows into the sump 19 and with the pump 25 when the valve 36 is closed, it is supplied to the 7 "storage tank. The passage further through the humidification chamber 10, the air is partially softened, and thus brought to comfort parameters room 14, from where through pipe 29 is taken back by fan 39. The cycle is repeated.

Due to the implementation of the heat exchanger chamber in the vice indirect evaporation chamber, consisting of a sump, dry and wet channels, irrigator and pump, it becomes possible to perform summer air conditioning due to

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simple processes of air treatment with water, relieving the solar collector from brine, eliminate the need for t use of additional equipment. This reduces the cost of installation while reducing metal and energy intensity.

Claims (2)

1. Solar thermal power plant containing a solar collector having a housing with a translucent coating, equipped with inlet and outlet nozzles, with a heat exchanger placed in it, a battery tank connected to the latter, and an air conditioner including chambers heat exchange and humidification, the latter of which has a pallet, while the air conditioner is connected at the entrance with the atmosphere and at the exit with the room, in order to increase the efficiency of solar energy use, solar power is additionally contains a drying chamber connected to the outlet manifold of the collector through a three-way valve communicated also with the air conditioner inlet, the collector inlet manifold is connected with the atmosphere and the room, the heat exchange chamber is made in the form of alternating dry and wet channels located above the additional pallet connected with the tank the accumulator, with dry channels connected to the humidification chamber, and sprinklers connected to the storage tank are installed in the humidification chamber. five 0 five 0 2. The solar power plant according to claim 1, wherein it additionally contains a backup heater on the line connecting the sprinklers of wet channels to the storage tank.