CN206771589U - A kind of energy-saving dew point evaporation cooling air processor group of multi-energy complementation - Google Patents
A kind of energy-saving dew point evaporation cooling air processor group of multi-energy complementation Download PDFInfo
- Publication number
- CN206771589U CN206771589U CN201720222023.6U CN201720222023U CN206771589U CN 206771589 U CN206771589 U CN 206771589U CN 201720222023 U CN201720222023 U CN 201720222023U CN 206771589 U CN206771589 U CN 206771589U
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- dew point
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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
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/10—Photovoltaic [PV]
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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
- Y02E10/50—Photovoltaic [PV] energy
- Y02E10/56—Power conversion systems, e.g. maximum power point trackers
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- Devices For Blowing Cold Air, Devices For Blowing Warm Air, And Means For Preventing Water Condensation In Air Conditioning Units (AREA)
Abstract
A kind of energy-saving dew point evaporation cooling air processor group of multi-energy complementation disclosed in the utility model, including machine unit shell, machine unit shell have air inlet, air outlet respectively on relative two side, and air outlet connects with room;There are filter element, blower fan, heat reclamation device, dew point indirect evaporative cooler, rotation material filling type devaporizer and water fender b in machine unit shell, there is electric power supply control system in machine unit shell, electric power supply control system is connected with solar energy photovoltaic panel, and electric power supply control system is connected with blower fan, dew point indirect evaporative cooler, rotation material filling type devaporizer respectively;There is exhaust outlet on the roof of machine unit shell corresponding to above heat reclamation device, air through tunnel entrance is arranged at heat reclamation device bottom, and air through tunnel entrance connects with the return air inlet in room, has secondary exhausting mouth on the roof of machine unit shell corresponding to above dew point indirect evaporative cooler.The energy-saving dew point evaporation cooling air processor group of the utility model can carry out cooling humidification process under low energy consumption to air.
Description
Technical field
The utility model belongs to air conditioner technical field, and in particular to a kind of energy-saving dew point evaporation of multi-energy complementation
Cooling air processor group.
Background technology
With the continuous development of society, requirement of the people to living environment increasingly improves, and the situation is tense for global climate, to energy
The demand in source is also increasing, is the trend of current social development using the alternative clean type energy.
With the rapid sprawling of global warming phenomenon, all there is extreme weather in summer in many areas, and this makes sky
Gas control device indispensable important electrical home appliances in being lived as people's summer, and existing conditioner is being run
During the problem of energy resource consumption is big mostly be present.In recent years, the development of dew point indirect evaporative cooling technology and spreading speed are non-
Normal is rapid, in order to assign dew point indirect evaporative cooling device more advantages, in existing dew point indirect evaporative cooling technology
On the basis of combine heliotechnics, air through tunnel technology, heat recovery technology carry out cooling humidification process to air, just can be in low energy consumption
It is lower to obtain the suitable air of humiture, so as to meet people to low energy consumption and the requirement of comfortableness.
Utility model content
The purpose of this utility model is the energy-saving dew point evaporation cooling air processor for providing a kind of multi-energy complementation
Group, dew point indirect evaporative cooling technology is combined with heliotechnics, air through tunnel technology, heat recovery technology, can be under low energy consumption
Cooling humidification process is carried out to primary air, the efficiency of unit is improved while energy-conservation.
The utility model is the technical scheme adopted is that at a kind of energy-saving dew point evaporation cooling air of multi-energy complementation
Unit is managed, includes machine unit shell, solar energy photovoltaic panel, the relative two side of machine unit shell is pasted with the roof of machine unit shell
On be respectively arranged with air inlet, air outlet, air outlet is connected by airduct with room;In machine unit shell by air-flow direction according to
It is secondary to be provided with filter element, blower fan, heat reclamation device, dew point indirect evaporative cooler, rotation material filling type devaporizer and gear
Water plate b, electric power supply control system is additionally provided with machine unit shell, and solar energy photovoltaic panel connects and composes generating with electric power supply control system
Electric power system, electric power supply control system also connect with blower fan, dew point indirect evaporative cooler, rotation material filling type devaporizer respectively
Connect;Exhaust outlet is provided with the roof of machine unit shell corresponding to above heat reclamation device, heat reclamation device bottom is provided with tunnel
Wind entrance, and the air through tunnel entrance is connected by buried air channel with the return air inlet in room, and volume control damper is provided with return air inlet;
Corresponding to above dew point indirect evaporative cooler secondary exhausting mouth is provided with the roof of machine unit shell.
The characteristics of the utility model, also resides in:
Air-valve is provided with air inlet;Filter element is using thick effect filter cotton.
Blower fan uses forced blower fan.
Water fender b uses ripple type water fender.
Air through tunnel, which enters, intraoral is provided with active carbon filter.
Exhaust blower is provided with exhaust outlet, the secondary exhausting is intraoral to be provided with secondary exhausting machine, the exhaust blower and two
Secondary exhaust blower is connected with electric power supply control system.
Electric power supply control system, include the photovoltaic controller being connected by wire with solar energy photovoltaic panel, the photovoltaic control
Device processed forms closed-loop path by two wires and battery, and the battery is connected by wire with generator;Blower fan, dew point
Indirect evaporation cooler, exhaust blower and secondary exhausting machine are connected with photovoltaic controller;Rotate material filling type devaporizer and hair
Motor connection.
Dew point indirect evaporative cooler, include dew point indirect evaporative cooling core body, the dew point indirect evaporative cooling core
Body has been sequentially arranged above water distributor and water fender a, is evenly arranged with the water distributor multiple towards dew point indirect evaporative
The nozzle of cooling core body spray, is provided with cyclic water tank a below the dew point indirect evaporative cooling core body;Water distributor passes through confession
Water pipe is connected with cyclic water tank a, and water circulating pump is provided with the feed pipe, and the water circulating pump is controlled by wire and photovoltaic
Device connects;Cyclic water tank a is connected with filling pipe a.
Material filling type devaporizer is rotated, includes rotary filler and cyclic water tank b set up and down, and the rotation
The bottom of rotatable filler is arranged in cyclic water tank b;Rotary filler, include cylindric framework, in the cylindric framework
Be provided centrally with rotary shaft, the rotary shaft is connected with generator, in the cylindric framework with it is radial be evenly distributed with it is more
Block fan-shaped filling material block.
The metal aluminum foil filling block of fan-shaped filling material block;Cyclic water tank b is connected with filling pipe b.
The beneficial effects of the utility model are:
(1) energy-saving dew point evaporation cooling air processor group of the present utility model, is pasted with the top of machine unit shell
Solar energy photovoltaic panel, solar energy photovoltaic panel can produce electric energy after absorbing solar energy, caused electric energy through photovoltaic controller at
It is used to supply forced blower fan, exhaust blower, water circulating pump and the use of secondary exhausting machine after reason;As can be seen here, the utility model one
The energy-saving dew point evaporation cooling air processor group of kind multi-energy complementation utilizes solar power generation, and adaptation uses the clean type energy
Trend, also save unit operation expense while the energy is saved.
(2) in energy-saving dew point evaporation cooling air processor group of the present utility model, battery and photovoltaic controller
Connection, mechanical energy caused by rotary filler rotation are stored in battery after changing into electric energy by generator, rotatably filled out
Material is driven by primary air, and when running into that electricity is inadequate caused by solar energy photovoltaic panel rainy days, required electricity is entered by battery
Row supply;A kind of energy-saving dew point evaporation cooling air processor group of multi-energy complementation of the utility model is converted using mechanical energy
It is standby into electric energy, unit electricity consumption requirement is met while saving the energy, reduces the initial cost of unit.
(3) energy-saving dew point evaporation cooling air processor group of the present utility model, passes through ground in heat reclamation device bottom
Bury air channel with the return air inlet in room to be connected, make full use of the cold in return air, and further cooled using buried air channel to return air,
Return air is filtered when entering heat reclamation device bottom by active carbon filter, ensures the cleaning of air, primary air with it is cooled
Return air exchanges heat in heat reclamation device, and primary air is cooled;A kind of energy-saving dew point of multi-energy complementation of the utility model steams
Cooling air processor group is sent out using air through tunnel technology cooling return air, while ensures air cleaning, it is not contaminated, cold is carried out
Cascade utilization, improve the efficiency of unit.
(4) it is dew point indirect evaporative cooling to be used in energy-saving dew point evaporation cooling air processor group of the present utility model
Device, by the primary air to cool after heat reclamation device is handled, further processing is to dew-point temperature is approached, compared to extensive at present
For the various forms of indirect coolings used, the efficiency of unit is improved, while saving again is cooled down using dew point indirect evaporative
Unit operation expense, economical and efficient.
(5) rotary filler is employed in energy-saving dew point evaporation cooling air processor group of the present utility model, and revolved
The latter half of rotatable filler is soaked in cyclic water tank, and primary air during rotation filler by cooling by being humidified, using ripple
Type water fender, final primary air are sent into room, to meet comfortableness requirement.
Brief description of the drawings
Fig. 1 is the structural representation of the energy-saving dew point evaporation cooling air processor group of the utility model;
Fig. 2 is the structural representation of electricity generating and supplying system in the energy-saving dew point evaporation cooling air processor group of the utility model
Figure;
Fig. 3 is the energy-saving dew point evaporation cooling air processor group internal rotation material filling type devaporizer of the utility model
Structural representation.
In figure, 1. air inlets, 2. air-valves, 3. machine unit shells, 4. solar energy photovoltaic panels, 5. heat reclamation devices, 6. exhaust blowers,
7. water distributor, 8. nozzles, 9. secondary exhausting machines, 10. water fender a, 11. dew point indirect evaporative cooling core bodies, 12. rotatably fill out
Material, 13. air outlets, 14. airducts, rooms 15., 16. filter elements, 17. blower fans, 18. photovoltaic controllers, 19. batteries, 20.
Active carbon filter, 21. buried air channels, 22. water circulating pumps, 23. cyclic water tank a, 24. filling pipe a, 25. cyclic water tank b, 26.
Filling pipe b, 27. generators, 28. water fender b, 29. return air inlets, 30. fan-shaped filling material blocks.
Embodiment
The utility model is described in detail with reference to the accompanying drawings and detailed description.
The energy-saving dew point evaporation cooling air processor group of a kind of multi-energy complementation of the utility model, such as Fig. 1 and Fig. 2 institutes
Show, include machine unit shell 3, solar energy photovoltaic panel 4, the relative two side of machine unit shell 3 are pasted with the roof of machine unit shell 3
On be respectively arranged with air inlet 1, air outlet 13, air outlet 13 is connected by airduct 14 with room 15;Air is pressed in machine unit shell
Flow direction is disposed with filter element 16, blower fan 17, heat reclamation device 5, dew point indirect evaporative cooler, rotation material filling type
Devaporizer and water fender b28, electric power supply control system, and electric power supply control system and solar energy are additionally provided with machine unit shell
Volt plate 4 connects and composes electricity generating and supplying system, electric power supply control system also respectively with blower fan 17, dew point indirect evaporative cooler, rotation
Material filling type devaporizer connects;Exhaust outlet is provided with corresponding to the top of heat reclamation device 5 on the roof of machine unit shell 3, heat is returned
The bottom of receiving apparatus 5 is provided with air through tunnel entrance, and the air through tunnel entrance is connected by the return air inlet 29 in buried air channel 21 and room 15
It is logical, it is provided with secondary exhausting mouth on the roof of machine unit shell 3 corresponding to above dew point indirect evaporative cooler.
Air-valve 2 is provided with air inlet 1.
Filter element 16 is using thick effect filter cotton.
Blower fan 17 uses forced blower fan.
Water fender b28 uses ripple type water fender.
Air through tunnel, which enters, intraoral is provided with active carbon filter 20.
Volume control damper is provided with return air inlet 29.
Exhaust blower 6 is provided with exhaust outlet, secondary exhausting is intraoral to be provided with secondary exhausting machine 9, exhaust blower 6 and secondary exhausting
Machine 9 is connected with electric power supply control system.
Electric power supply control system, as shown in Fig. 2 including the photovoltaic controller being connected by wire with solar energy photovoltaic panel 4
18, photovoltaic controller 18 forms closed-loop path by two wires and battery 19, and battery 19 passes through wire and generator 27
Connection;Blower fan 17, dew point indirect evaporative cooler, exhaust blower 6 and secondary exhausting machine 9 are connected with photovoltaic controller 18, rotation
Material filling type devaporizer is connected with generator 27.
Wherein, photovoltaic controller 18 and battery 19 are between heat reclamation device 5 and dew point indirect evaporative cooler;Hair
Motor 27 is between rotation material filling type devaporizer and water fender b28.
Dew point indirect evaporative cooler, as shown in figure 1, including dew point indirect evaporative cooling core body 11, dew point steams indirectly
Hair cooling core body 11 has been sequentially arranged above water distributor 7 and water fender a10, is evenly arranged with water distributor 7 multiple towards dew
The nozzle 8 of the spray of point indirect evaporating-cooling core body 11, the lower section of dew point indirect evaporative cooling core body 11 is provided with cyclic water tank
A23, water distributor 7 are connected by feed pipe with cyclic water tank a23, water circulating pump 22 are provided with feed pipe, as shown in Fig. 2 following
Ring water pump 22 is connected by wire with photovoltaic controller 18.
Cyclic water tank a23 is connected with filling pipe a24, and water compensating valve is provided with filling pipe a24.
Material filling type devaporizer is rotated, as shown in Figures 1 and 3, includes the rotary He of filler 12 set up and down
Cyclic water tank b25, and the bottom of rotary filler 12 is arranged in cyclic water tank b25;Rotary filler 12, includes cylindrical shape
Framework, cylindric frame center is provided with rotary shaft, the rotary shaft is connected with generator 27, with radial in cylindric framework
It is evenly distributed with polylith fan-shaped filling material block 30.
The metal aluminum foil filling block of fan-shaped filling material block 30.
Cyclic water tank b25 is connected with filling pipe b26, and water compensating valve is provided with filling pipe b26.
A kind of energy-saving dew point evaporation cooling air processor group of multi-energy complementation of the utility model, the work of its wind system
Flow is specific as follows:
(1) outdoor fresh air enters in machine unit shell through air inlet 1, by filter element 16 (slightly imitating filter cotton) to outdoor fresh air
Filtration treatment is carried out, forms the fresh air of cleaning;Clean fresh air enters recuperation of heat under blower fan 17 (forced blower fan) effect
Heat exchange is carried out with return air in device 5, forms Cryogenic air;Cryogenic air is entered back into dew point indirect evaporative cooler, now
Cryogenic air as primary air in the dry passage of dew point indirect evaporative cooling core body 11 by etc. wet be cooled to approach dew point temperature
Degree, enter back into afterwards in rotation material filling type devaporizer and carry out hot and humid area with rotary filler 12, primary air is cooled
Humidification process forms cold wind;Cold wind is after water fender b28 (ripple type water fender) filters out unnecessary water through air outlet 13 and wind
Pipe 14 is sent into room 15, is met to the comfortableness requirement in room 15.
(2) return air in room 15 is entered in buried air channel 21 by the return air inlet 29 in room 15, is given using buried air channel 21
Return air further cools, and then entering intraoral active carbon filter 20 by air through tunnel filters, and removes having in buried air channel 21
Evil thing, the outdoor fresh air that the return air filtered enters in heat reclamation device 5 with high temperature are exchanged heat, and cold is passed into fresh air,
Discharged after now return air temperature rise in the presence of exhaust blower 6 through exhaust outlet.
(3) in dew point indirect evaporative cooler, the part in the dry passage of dew point indirect evaporative cooling core body 11 is once
Air is drilled out in wet channel by aperture, and as auxiliary air, auxiliary air and the water sprayed through nozzle 8 carry out the wet friendship of heat
Change, in dry passage primary air absorb cold by etc. it is clammy but, after auxiliary air filters out unnecessary water through water fender a10,
Discharged in the presence of secondary exhausting machine 9 through secondary exhausting mouth.
A kind of energy-saving dew point evaporation cooling air processor group of multi-energy complementation of the utility model, the work of its water system
Flow is:
In dew point indirect evaporative cooler, the recirculated water in cyclic water tank a23 is in the presence of water circulating pump 22 through supplying
Water pipe is delivered in the water distributor 7 of the top of dew point indirect evaporative cooling core body 11, is sprayed water by multiple nozzles 8 on water distributor 7
Leaching directly contacts with auxiliary air in wet channel to dew point indirect evaporative cooling core body 11 and returns to recirculated water after carrying out hot and humid area
In case a23, constantly circulated with this.
In rotation material filling type devaporizer, there is recirculated water in cyclic water tank b25, rotary filler 12 passes through recirculated water
It is wetted after case b25.
Cyclic water tank a23 is connected with filling pipe a24, and cyclic water tank b25 is connected with filling pipe b26, can guarantee that lasting water supply.
A kind of energy-saving dew point evaporation cooling air processor group of multi-energy complementation of the utility model, its power supply system that generates electricity
The workflow of system is specific as follows:
Solar energy photovoltaic panel 4 is attached on the roof of machine unit shell 3, and is connected by wire with photovoltaic controller 18, too
Positive energy photovoltaic panel 4 absorbs caused electricity air feed machine 17 (forced blower fan), circulation after the processing of photovoltaic controller 18 after solar energy
Water pump 22, exhaust blower 6 and secondary exhausting machine 9 use;Wherein, battery 19 is connected with photovoltaic controller 18, and battery 19
The other end is connected with generator 27, and rotary filler 12 is driven by primary air, and caused mechanical energy changes into electricity by generator
It can be stored in battery 27, when in rainy days, when solar energy photovoltaic panel 4 generates electricity not enough, required electricity consumption is by battery 19
Supply.
A kind of energy-saving dew point evaporation cooling air processor group of multi-energy complementation of the utility model, dew point is steamed indirectly
Hair cooling technology is combined with heliotechnics, air through tunnel technology, heat recovery technology, primary air can be carried out under low energy consumption
Cool humidification process, and the efficiency of unit is improved while energy-conservation.
Claims (10)
1. the energy-saving dew point evaporation cooling air processor group of a kind of multi-energy complementation, it is characterised in that include unit shell
Body (3), solar energy photovoltaic panel (4), the relative both sides of the machine unit shell (3) are pasted with the roof of the machine unit shell (3)
Air inlet (1), air outlet (13) are respectively arranged with wall, the air outlet (13) is connected by airduct (14) with room (15);
In the machine unit shell filter element (16), blower fan (17), heat reclamation device (5), dew are disposed with by air-flow direction
Point indirect evaporation cooler, material filling type devaporizer and water fender b (28) are rotated, power supply is additionally provided with the machine unit shell
Control system, and the solar energy photovoltaic panel (4) connects and composes electricity generating and supplying system, the power supply control with electric power supply control system
System is also connected with blower fan (17), dew point indirect evaporative cooler, rotation material filling type devaporizer respectively;The recuperation of heat dress
Put and be provided with exhaust outlet on the roof of machine unit shell (3) corresponding to above (5), heat reclamation device (5) bottom is provided with ground
Road wind entrance, and the air through tunnel entrance is connected by buried air channel (21) with the return air inlet (29) of room (15), the return air
Volume control damper is provided with mouth (29);Corresponding to above the dew point indirect evaporative cooler on the roof of machine unit shell (3)
It is provided with secondary exhausting mouth.
2. energy-saving dew point evaporation cooling air processor group according to claim 1, it is characterised in that the air inlet
(1) air-valve (2) is provided with;
The filter element (16) is using thick effect filter cotton.
3. energy-saving dew point evaporation cooling air processor group according to claim 1, it is characterised in that the blower fan
(17) forced blower fan is used.
4. energy-saving dew point evaporation cooling air processor group according to claim 1, it is characterised in that the dash
Plate b (28) uses ripple type water fender.
5. energy-saving dew point evaporation cooling air processor group according to claim 1, it is characterised in that the air through tunnel
Enter intraoral to be provided with active carbon filter (20).
6. energy-saving dew point evaporation cooling air processor group according to claim 1, it is characterised in that the exhaust outlet
Exhaust blower (6) is inside provided with, the secondary exhausting is intraoral to be provided with secondary exhausting machine (9), the exhaust blower (6) and secondary exhausting
Machine (9) is connected with electric power supply control system.
7. the energy-saving dew point evaporation cooling air processor group according to claim 1 or 6, it is characterised in that the confession
Electric control system, include the photovoltaic controller (18) being connected by wire with solar energy photovoltaic panel (4), the photovoltaic controller
(18) closed-loop path is formed by two wires and battery (19), the battery (19) is connected by wire and generator (27)
Connect;
The blower fan (17), dew point indirect evaporative cooler, exhaust blower (6) and secondary exhausting machine (9) are and photovoltaic controller
(18) connect;
The rotation material filling type devaporizer is connected with generator (27).
8. energy-saving dew point evaporation cooling air processor group according to claim 7, it is characterised in that between the dew point
Connect devaporizer, include dew point indirect evaporative cooling core body (11), the dew point indirect evaporative cooling core body (11) it is upper
Side is disposed with water distributor (7) and water fender a (10), is evenly arranged with the water distributor (7) multiple indirect towards dew point
The nozzle (8) of cooling core body (11) spray is evaporated, recirculated water is provided with below the dew point indirect evaporative cooling core body (11)
Case a (23);
The water distributor (7) is connected by feed pipe with cyclic water tank a (23), and water circulating pump is provided with the feed pipe
(22), the water circulating pump (22) is connected by wire with photovoltaic controller (18);
The cyclic water tank a (23) is connected with filling pipe a (24).
9. energy-saving dew point evaporation cooling air processor group according to claim 7, it is characterised in that the rotary filling
Material formula devaporizer, include rotary filler (12) and cyclic water tank b (25) set up and down, and described rotatably fill out
The bottom of material (12) is arranged in cyclic water tank b (25);
The rotary filler (12), includes cylindric framework, the cylindric frame center is provided with rotary shaft, described
Rotary shaft is connected with generator (27), and polylith fan-shaped filling material block (30) is evenly distributed with radial in the cylindric framework.
10. energy-saving dew point evaporation cooling air processor group according to claim 9, it is characterised in that the sector
The metal aluminum foil filling block of filling block (30);
The cyclic water tank b (25) is connected with filling pipe b (26).
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CN201720222023.6U CN206771589U (en) | 2017-03-08 | 2017-03-08 | A kind of energy-saving dew point evaporation cooling air processor group of multi-energy complementation |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109968946A (en) * | 2019-03-11 | 2019-07-05 | 上海工程技术大学 | A kind of tour bus based on new energy multi-air condition system |
CN110753479A (en) * | 2019-10-23 | 2020-02-04 | 西安工程大学 | Photovoltaic direct-drive dew point indirect evaporative cooling air conditioning system for data center |
-
2017
- 2017-03-08 CN CN201720222023.6U patent/CN206771589U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109968946A (en) * | 2019-03-11 | 2019-07-05 | 上海工程技术大学 | A kind of tour bus based on new energy multi-air condition system |
CN110753479A (en) * | 2019-10-23 | 2020-02-04 | 西安工程大学 | Photovoltaic direct-drive dew point indirect evaporative cooling air conditioning system for data center |
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Granted publication date: 20171219 Termination date: 20200308 |