CN207849614U - A kind of joint Cooling Air-conditioning System for data center module - Google Patents
A kind of joint Cooling Air-conditioning System for data center module Download PDFInfo
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- CN207849614U CN207849614U CN201721717817.6U CN201721717817U CN207849614U CN 207849614 U CN207849614 U CN 207849614U CN 201721717817 U CN201721717817 U CN 201721717817U CN 207849614 U CN207849614 U CN 207849614U
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Abstract
The utility model discloses a kind of joint Cooling Air-conditioning Systems for data center module, including cooling water recirculation system, solution dehumidification system and indirect evaporating-cooling system, in solution regeneration and indirect evaporating-cooling system by the heat recovery and utilization of data center module to solution dehumidification system, on the one hand fresh air is dried using solution dehumidification system, then is sent to data center module after being cooled down by indirect evaporating-cooling system and completes heat exchange;On the other hand data center module is sent the cooling water that priority is cooled down in solution dehumidification system, cooling water recirculation system to the concentration heat exchange microchannels of server using the cooling of water side, heat caused by takeaway service device.The utility model efficiently combines the cooling of water side and the air side type of cooling, realize the free cooling of cooling water recirculation system water side, and the relatively conventional computer-room air conditioning system operation energy consumption of operation energy consumption reduces by 80% or so, simultaneously not by surrounding environment influence, flexibility is strong, is particularly suitable for high humidity environment.
Description
Technical field
The utility model belongs to refrigeration technology field, and in particular to a kind of joint cooling air-conditioning system for data center module
System.
Background technology
With the fast development of ICT industries, the quantity and its energy consumption level of data center module are also in increase at double.Meanwhile
Because the energy consumption of data air conditioner in machine room cooling system accounts for total energy consumption nearly half, therefore the energy consumption problem of the cooling system of data center module
Increasingly attract attention.
Currently, in refrigeration industry, the air-conditioning system of the cooling work for data center module mainly has three categories, the first kind
It is the air-cooled air conditioning system that traditional offer cooling air takes away data center module heat, the second class is to produce freezing using cooling tower
Water carries out data center module the air-conditioning system of water cooling, and third class is to use directly or indirectly to evaporate cold mode to data center module cooling
Air-conditioning system.Conventional air-cooled air conditioning system operating cost is high, but there is huge energy-saving potentials for air side;Water cooling is empty
Adjusting system operating cost is low, and the investment payback time is short, but, low-temperature receiver is affected by environment larger;The evaporation cold air conditioning system of third class
Can utilize natural cooling source to a greater extent, good energy saving property, but in thermal and humidity environment because cannot 100% evaporation cooling, be easy to lead
Cause insufficient problem of freezing occur in operational process.
As it can be seen that the prior art could be improved and improve.
Utility model content
In view of in place of above-mentioned the shortcomings of the prior art, the purpose of this utility model is to provide one kind being used for modem
The joint Cooling Air-conditioning System in room efficiently combines the cooling of water side and air side cooling, has high-efficiency low energy consumption, not by ambient enviroment
Influence, flexible operation, adaptable feature, the area especially suitable for high humidity environment.
In order to realize that the technical purpose mentioned above arrived, the utility model take following technical scheme:
A kind of joint Cooling Air-conditioning System for data center module, including cooling water recirculation system, solution dehumidification system and
Indirect evaporating-cooling system;
The cooling water recirculation system includes First Heat Exchanger, the second heat exchanger, the first cooling tower, low temperature feed pipe, height
Warm return pipe, the first freezing water circulating pipe;The low temperature feed pipe and high-temperature tempering pipe are for connecting service in data center module
The heat exchange unit of device;Described first freezes the water circulating pipe cold side runner phase with the first cooling tower and First Heat Exchanger respectively
Even;The hot side runner exit end of the First Heat Exchanger connects low temperature feed pipe, and the high-temperature tempering pipe is sequentially connected second and changes
The hot side runner of hot device and the hot side tunnel inlets end of First Heat Exchanger;
The solution dehumidification system include regenerative device of solution, solution absorption plant, the first elevator pump and the second elevator pump,
Third heat exchanger;The water outlet of the solution absorption plant be sequentially connected the cold side runner of the second heat exchanger, the first elevator pump and
The water inlet end of regenerative device of solution;The water outlet of the regenerative device of solution is sequentially connected the second elevator pump and solution absorption plant
Water inlet end;
The indirect evaporating-cooling system includes fresh air pipeline, indirect evaporating-cooling unit, cycle wind pipeline, high temperature return air
Pipeline;The cycle wind pipeline is with high temperature return air duct for being connected to data center module;The fresh air pipeline is sequentially communicated solution suction
Receiving apparatus, indirect evaporating-cooling unit and cycle wind pipeline;The high temperature return air duct respectively with indirect evaporating-cooling unit, molten
Liquid regenerating unit is connected.
Further include third heat exchanger, the second cooling tower, in the joint Cooling Air-conditioning System for data center module
Two freezing water circulating pipes;Described second freezes the water circulating pipe cold side runner with the second cooling tower and third heat exchanger respectively
It is connected;The hot side runner of the third heat exchanger respectively with the water outlet of regenerative device of solution, the water inlet end phase of the second elevator pump
Even.
In the joint Cooling Air-conditioning System for data center module, the water outlet of the regenerative device of solution and third
It is connected with actified solution tank between the hot side runner of heat exchanger.
In the joint Cooling Air-conditioning System for data center module, the water outlet and second of the solution absorption plant
It is connected with absorbent solution tank between the cold side runner of heat exchanger.
Further include the first by-pass line and the second bypass pipe in the joint Cooling Air-conditioning System for data center module
Road;The both ends of first by-pass line are separately connected the inlet end and an outlet end of the cold side runner of First Heat Exchanger, and
The junction at the cold side tunnel inlets end of bypass line road and First Heat Exchanger is equipped with chilled water three-way control valve;By in the of described second
The both ends threaded a pipe are separately connected the inlet end and an outlet end of the hot side runner of the second heat exchanger, and in the second by-pass line and
The junction at the hot side tunnel inlets end of two heat exchangers is equipped with cooling water three-way control valve.
In the joint Cooling Air-conditioning System for data center module, the data center module includes from top to bottom being connected to
Upper layer air-supply layer, computer room center and underlying technique interlayer;The high temperature return air duct setting is in upper layer air-supply layer, the circulated air
Pipeline is arranged in underlying technique interlayer.
Further include filter device in the joint Cooling Air-conditioning System for data center module;The filter device is set
It sets in underlying technique interlayer and computer room center connectivity part, computer room center and upper layer air-supply layer connectivity part.
In the joint Cooling Air-conditioning System for data center module, the heat exchange unit of the server is handed over for concentration heat
Microchannel is changed, face, concentration heat exchange microchannels both ends are separately connected low on the server for the concentration heat exchange microchannels setting
Warm feed pipe and high-temperature tempering pipe.
Advantageous effect:
(1)The utility model provides a kind of joint Cooling Air-conditioning System for data center module, fully utilizes cooling
Water circulation system, solution dehumidification system and indirect evaporating-cooling system carry out the cooling of water side to data center module and air side cool down,
More conventional single cooling system year operation energy consumption reduces by 80% or so.
(2)It is cooled down using High-temperature cooling water cooling mode rather than Conventional cryogenic cold water, is followed provided with cooling water in the system
Loop system utilized absorbent solution to cool modem to be entered again using cooling tower afterwards to the cooling water cooling of high temperature before this
The cooling water in room, realizes the free cooling of water side, while the heat for the data center module taken away to water side is recycled, and is used for again
Raw dehumidification solution, to reduce system energy consumption.
(3)Removal moisture drying, solution dehumidification system are carried out to the fresh air of high humility using more efficient solution dehumidification system
In solution reclaiming process effectively recycle and the heat of computer room be utilized, not only absorb take away water side data center module heat
Amount, but also be in direct contact with the high temperature return air of the high temperature return air duct of indirect evaporating-cooling system, carry out heat exchange;Exist simultaneously
Cooling tower natural cooling has been carried out to dehumidification solution before dehumidifying absorption process, has enhanced solution dehumidification effect, it is more energy-efficient.
(4)Indirect evaporating-cooling system has carried out cooling reinforcing using solution dehumidification system, utilizes solution dehumidification system pair
High humility fresh air dehumidifies, and in conjunction with indirect evaporating-cooling, realizing under any environmental condition can air side 100%
Evaporation cooling, more abundant, system energy efficiency higher of freezing.
Description of the drawings
Fig. 1 is the connection diagram of the joint Cooling Air-conditioning System provided by the utility model for data center module.
Fig. 2 is company of the joint Cooling Air-conditioning System provided by the utility model for data center module in another embodiment
Connect schematic diagram.
Specific implementation mode
The utility model provides a kind of joint Cooling Air-conditioning System for data center module, to make the mesh of the utility model
, technical solution and effect it is clearer, clear, the embodiment that develops simultaneously referring to the drawings to the utility model further specifically
It is bright.It should be appreciated that specific embodiment described herein is not used to limit this practicality newly only to explain the utility model
Type.
In the description of the present invention, it should be understood that term " first ", " second ", " third " are only used for describing
Purpose is not understood to indicate or imply relative importance or implicitly indicates the quantity of indicated technical characteristic.
Referring to Fig. 2, the utility model provides a kind of joint Cooling Air-conditioning System for data center module, including cooling
Water circulation system, solution dehumidification system and indirect evaporating-cooling system.
Cooling water recirculation system include First Heat Exchanger 13, the second heat exchanger 12, the first cooling tower 14, low temperature feed pipe 9,
High-temperature tempering pipe 8, first freezes water circulating pipe 24;Low temperature feed pipe 9, high-temperature tempering pipe 8 are used in connection data center module 1
The heat exchange unit of server 6, first freezes cold side of the water circulating pipe 24 respectively with the first cooling tower 14 and First Heat Exchanger 13
Channel is connected;The hot-side channel outlet end connection low temperature feed pipe 9 of First Heat Exchanger 13, high-temperature tempering pipe 8 is sequentially connected second
The hot-side channel of heat exchanger 12 and the hot-side channel input end of First Heat Exchanger 13.First cooling tower, 14 natural cooling, is produced
Raw food amount passes to cooling water through the first chilled water pipeline 24, and cooling water passes through low temperature supplying after First Heat Exchanger 13 completes cooling
Water pipe 9 enters data center module 1, provides a large amount of cold, the cooling water that 1 heat of data center module becomes high temperature is absorbed, by height
Warm return pipe 8 enters the second heat exchanger 12, exchanges heat with absorbent solution, after the cooling water of high temperature is once cooled down, then returns
Secondary cooling is carried out to First Heat Exchanger 13, cooling cycle is formed with this.The cooling water recirculation system will absorb data back
The heat transfer of computer room 1 has given the chilled water in absorbent solution and the first chilled water pipeline 24, so that it is completed solution regeneration, realizes
The free cooling of water side, reduces the energy consumption of system.
Solution dehumidification system includes regenerative device of solution 16, solution absorption plant 20, the promotion of the first elevator pump 26 and second
Pump 27;The water outlet of solution absorption plant 20 is sequentially connected the cold side channel of the second heat exchanger 12, the first elevator pump 26 and solution
The water inlet end of regenerating unit 16;The water outlet of regenerative device of solution 16 is sequentially connected the second elevator pump 27 and solution absorption plant 20
Water inlet end.The fresh air that highly concentrated solution in solution absorption plant 20 is conveyed with fresh air pipeline 28 is in direct contact, and is absorbed new
Moisture contained by wind, becomes low concentration solution, is delivered to the second heat exchanger 12 and exchanges heat, since low concentration solution absorbs height
Then the heat of warm cooling water, temperature rise are delivered to regenerative device of solution 16 through the first elevator pump 26, complete regeneration, become again
Highly concentrated solution, so that it continues to absorb the moisture contained by fresh air in solution absorption plant 20.
Indirect evaporating-cooling system includes fresh air pipeline 28, indirect evaporating-cooling unit 21, cycle wind pipeline 11, high temperature time
Wind pipeline 10;Cycle wind pipeline 11, high temperature return air duct 10 provide cold, band for being connected to data center module 1, for data center module 1
Walk heat.Fresh air pipeline 28 is sequentially communicated solution absorption plant 20, indirect evaporating-cooling unit 21 and cycle wind pipeline 11;High temperature
Return air duct 10 is connected with indirect evaporating-cooling unit 21, regenerative device of solution 16 respectively.Fresh air pipeline 28 convey fresh air into
Enter solution absorption plant 20, is cooled into indirect evaporating-cooling unit 21 after completing removal moisture drying, fresh air after cooling passes through
It recycles wind pipeline and reaches data center module, carry out heat exchange, heat caused by takeaway service device becomes high temperature return air, and high temperature returns
Wind is flowed in high temperature return air duct 10, and a part of high temperature return air flow to regenerative device of solution 16, with the low concentration solution under spray
It is in direct contact, by the heat transfer of the data center module of absorption to solution, promotes low concentration solution to absorb heat of vaporization, evaporated
Moisture is mixed with high temperature return air, is discharged except regenerative device of solution 16, and another part enters to indirect evaporating-cooling unit 21, with
Water direct heat-exchange in indirect evaporating-cooling unit 21, promotes evaporative cooling.The heat of data center module has obtained effectively returning
It receives and utilizes, heat source is provided for regenerative device of solution 16 and indirect evaporating-cooling unit 21, so that solution is regenerated, steamed indirectly
Water evaporation for cooling in cooling unit 21 is sent out, the energy consumption of the joint Cooling Air-conditioning System is eventually reduced.
As shown in Figure 1, further, the joint Cooling Air-conditioning System further include third heat exchanger 19, the second cooling tower 15,
Second freezing water circulating pipe 25;Second freezing water circulating pipe 25 is cold with the second cooling tower 15 and third heat exchanger 19 respectively
Wing passage is connected;The hot-side channel of third heat exchanger 19 respectively with the water outlet of regenerative device of solution 16, solution absorption plant 20
Preceding 27 water inlet end of the second elevator pump is connected.The highly concentrated solution of regenerative device of solution 16 flow to third heat exchanger 19, and second is cold
But cold is passed to the chilled water in the second freezing water circulating pipe 25 by tower 15, and then the chilled water enters to third heat exchanger
19, with highly concentrated solution indirect heat exchange, the temperature of highly concentrated solution is reduced, the highly concentrated solution of low temperature is promoted after through second
Pump 27 is transported to solution absorption plant 20, is in direct contact with fresh air, not only absorbs the moisture contained by fresh air, and cryogenic fluid
Cold is passed into fresh air, its temperature is reduced, condensate moisture therein is promoted to get off, further decreases the water content of fresh air,
Improve dry effect.By the way that third heat exchanger 19 and the second cooling tower 15 is arranged, for cooling down highly concentrated solution, Jin Erqiang
Change its removal moisture drying effect to fresh air.
Further, regeneration is connected between the water outlet of regenerative device of solution 16 and the hot-side channel of third heat exchanger 19
NaOH solution tank NaOH 17.
Further, it is connected with absorption between the water outlet of solution absorption plant 20 and the cold side channel of the second heat exchanger 12
NaOH solution tank NaOH 18.
Further, which further includes the first by-pass line and the second by-pass line;First bypass
The both ends of pipeline are separately connected the inlet end and an outlet end of the cold side channel of First Heat Exchanger 13, and in the first by-pass line and
The junction of the cold side channel input end of one heat exchanger 13 is equipped with chilled water three-way control valve 23;The both ends of second by-pass line point
Do not connect the inlet end and an outlet end of the hot-side channel of the second heat exchanger 12, and in the second by-pass line and the second heat exchanger 12
The junction of hot-side channel input end is equipped with cooling water three-way control valve 11.In addition, in the hot-side channel of second heat exchanger 12
Input end is provided with the temperature sensor for detecting return water temperature(It is not shown in figure), the temperature sensor and cooling water threeway
The pump of control valve 11, chilled water three-way control valve 23 and the first cooling tower 14 is electrically connected, for controlling cooling water three
The working condition of the pump of logical control valve 11, chilled water three-way control valve 23 and the first cooling tower 14.When temperature sensor detects
When the temperature of water is less than such as 60 DEG C of setting value in high-temperature tempering pipe 8, cooling water three-way control valve 11 will be opened, meanwhile, pass
Close the pump of chilled water three-way control valve 23 and the first cooling tower 14 so that the cooling water of high temperature enters after being come out from data center module 1
Second heat exchanger 12 exchanges heat, and temperature, which has reached, at this time send water requirement, then when flowing through First Heat Exchanger 13 without changing
Heat returns to data center module 1, saves the power consumption of the first cooling tower 14.If the water temperature in high-temperature tempering pipe 8 is higher than or waits
In such as 60 DEG C of setting value, then cooling water three-way control valve 11, chilled water three-way control valve 23 and the first cooling tower 14 are opened simultaneously
Pump so that high-temperature cooling water can obtain sufficient cooling down in the second heat exchanger 12 and First Heat Exchanger 13.In addition,
The cold side channel input end of second heat exchanger 12 is provided with the temperature sensor for detecting absorbent solution temperature, can be according to entrance
Absorbent solution temperature value in second heat exchanger 12, control cooling water three-way control valve 11 are adjusted into the second heat exchanger 12
Extra high-temperature cooling water is delivered to through the second by-pass line in First Heat Exchanger 13 by the flow of high-temperature cooling water.
Further, data center module 1 includes upper layer air-supply layer 2, computer room center 22 and the underlying technique being from top to bottom connected to
Interlayer 3;The setting of high temperature return air duct 10 is arranged in upper layer air-supply layer 2, cycle wind pipeline 11 in underlying technique interlayer 3.Low temperature is dry
Dry fresh air flows into computer room center 22 from underlying technique interlayer 3 and is cooled down, and absorbs the heat that 22 server 6 of computer room center generates
After amount, the return air of high temperature up flows, and high temperature return air duct 10 is flowed by upper layer air-supply layer 2.Underlying technique interlayer 3 and computer room
Several connectivity parts are equipped between center 22, the setting of connectivity part promotes fresh air homomergic flow through each cabinet 5, preferably completes heat
It exchanges.
Further, which further includes filter device;In underlying technique interlayer 3 and computer room center 22
Connectivity part is provided with filter device 4, and computer room center 22 and upper layer air-supply 2 connectivity part of layer are provided with filter device 30.Filtering dress
The setting set is to keep fresh air and the water content of high temperature return air lower, and dry fresh air can take away the vapor of data center module,
Ensure data center module sufficiently dry, so as not to electronic equipment because of the operation exception that makes moist;Dry high temperature return air and low concentration solution is straight
Contact, is not only allowed to evaporable water, but also but also the water more evaporated by the heat transfer of data center module to solution
Divide and mixed with high temperature return air, and then promotes the evaporation of solution.
Further, data center module 1 is provided with the cabinet 5 for placing server 6, and the server 6 on cabinet 5 is set above
It is equipped with heat exchange unit, heat exchange unit is to concentrate heat exchange microchannels 7, and 7 both ends of heat exchange microchannels is concentrated to be separately connected low temperature supplying
Water pipe 9 and high-temperature tempering pipe 8.Low-temperature cooling water flow to through low temperature feed pipe 9 and concentrates heat exchange microchannels 7, takes away concentration heat friendship
The heat that the server changed below microchannel 7 generates, then returns through high-temperature tempering pipe 8, completes cooling down.
In conclusion the utility model provides a kind of joint Cooling Air-conditioning System for data center module, comprehensive utilization
Cooling water recirculation system, solution dehumidification system and indirect evaporating-cooling system, carry out data center module that water side is cooling and air
Side cools down, and more conventional single cooling system year operation energy consumption reduces by 80% or so.The joint Cooling Air-conditioning System uses High-temperature cooling
Water cooling mode rather than Conventional cryogenic cold water cool down, and cooling water recirculation system is provided in the system, utilize absorbent solution before this
To the cooling water cooling of high temperature, the rear cooling water for cooling data center module to be entered again using cooling tower realizes exempting from for water side
The heat for the data center module for taking cooling, while taking away to water side is recycled, and is used for dehumidification regeneration system solution, is to reduce
System energy consumption.The joint Cooling Air-conditioning System carries out dehumidifying to the fresh air of high humility using more efficient solution dehumidification system and does
Dry, the solution reclaiming process in solution dehumidification system effectively recycles and the heat of computer room is utilized, and not only absorbs water side band
The data center module heat walked, but also be in direct contact with the high temperature return air of the high temperature return air duct of indirect evaporating-cooling system, into
Row heat exchange;Cooling tower natural cooling has been carried out to dehumidification solution before the absorption process that dehumidifies simultaneously, has enhanced solution dehumidification effect
Power, it is more energy-efficient.Indirect evaporating-cooling system has carried out cooling reinforcing using solution dehumidification system, utilizes solution dehumidification system
System dehumidifies to high humility fresh air, and in conjunction with indirect evaporating-cooling, realizing can air side under any environmental condition
100% evaporation cooling, more abundant, system energy efficiency higher of freezing.
It is understood that for those of ordinary skills, can with technical solution according to the present utility model and
The design of its utility model is subject to equivalent substitution or change, and all these changes or replacement should all belong to appended by the utility model
Scope of the claims.
Claims (8)
1. a kind of joint Cooling Air-conditioning System for data center module, which is characterized in that removed including cooling water recirculation system, solution
Wet system and indirect evaporating-cooling system;
The cooling water recirculation system includes First Heat Exchanger, the second heat exchanger, the first cooling tower, low temperature feed pipe, high temperature time
Water pipe, the first freezing water circulating pipe;The low temperature feed pipe and high-temperature tempering pipe are for connecting data center module server
Heat exchange unit;The first freezing water circulating pipe is connected with the first cooling tower with the cold side runner of First Heat Exchanger respectively;Institute
The hot side runner exit end connection low temperature feed pipe of First Heat Exchanger is stated, the high-temperature tempering pipe is sequentially connected the second heat exchanger
The hot side tunnel inlets end of hot side runner and First Heat Exchanger;
The solution dehumidification system includes regenerative device of solution, solution absorption plant, the first elevator pump and the second elevator pump;It is described
The water outlet of solution absorption plant be sequentially connected the cold side runner of the second heat exchanger, the first elevator pump and regenerative device of solution into
Water end (W.E.);The water outlet of the regenerative device of solution is sequentially connected the water inlet end of the second elevator pump and solution absorption plant;
The indirect evaporating-cooling system includes fresh air pipeline, indirect evaporating-cooling unit, cycle wind pipeline, high temperature backwind tube
Road;The cycle wind pipeline is with high temperature return air duct for being connected to data center module;The fresh air pipeline is sequentially communicated solution absorption
Device, indirect evaporating-cooling unit and cycle wind pipeline;The high temperature return air duct respectively with indirect evaporating-cooling unit, solution
Regenerating unit is connected.
2. the joint Cooling Air-conditioning System according to claim 1 for data center module, which is characterized in that further include third
Heat exchanger, the second cooling tower, the second freezing water circulating pipe;It is described second freezing water circulating pipe respectively with the second cooling tower and
The cold side runner of third heat exchanger is connected;The hot side runner of the third heat exchanger respectively with the water outlet of regenerative device of solution,
The water inlet end of second elevator pump is connected.
3. the joint Cooling Air-conditioning System according to claim 2 for data center module, which is characterized in that the solution is again
It is connected with actified solution tank between the water outlet of generating apparatus and the hot side runner of third heat exchanger.
4. the joint Cooling Air-conditioning System according to claim 1 for data center module, which is characterized in that the solution is inhaled
It is connected with absorbent solution tank between the water outlet of receiving apparatus and the cold side runner of the second heat exchanger.
5. the joint Cooling Air-conditioning System according to claim 1 for data center module, which is characterized in that further include first
By-pass line and the second by-pass line;The both ends of first by-pass line be separately connected the cold side runner of First Heat Exchanger into
Mouth end and outlet end, and it is equipped with chilled water three in the junction at the cold side tunnel inlets end of the first by-pass line and First Heat Exchanger
Logical control valve;The both ends of second by-pass line are separately connected the inlet end and an outlet end of the hot side runner of the second heat exchanger,
And it is equipped with cooling water three-way control valve in the junction at the hot side tunnel inlets end of the second by-pass line and the second heat exchanger.
6. the joint Cooling Air-conditioning System according to claim 1 for data center module, which is characterized in that the modem
Room includes upper layer air-supply layer, computer room center and the underlying technique interlayer being from top to bottom connected to;The high temperature return air duct setting exists
Upper layer air-supply layer, the cycle wind pipeline are arranged in underlying technique interlayer.
7. the joint Cooling Air-conditioning System according to claim 6 for data center module, which is characterized in that further include filtering
Device;The filter device setting is connected in underlying technique interlayer with computer room center connectivity part, computer room center and upper layer air-supply layer
Place.
8. the joint Cooling Air-conditioning System according to claim 1 for data center module, which is characterized in that the server
Heat exchange unit be to concentrate heat exchange microchannels, concentrations heat exchange microchannels setting face on the server, concentration heat exchange
Microchannel both ends are separately connected low temperature feed pipe and high-temperature tempering pipe.
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CN201721717817.6U CN207849614U (en) | 2017-12-12 | 2017-12-12 | A kind of joint Cooling Air-conditioning System for data center module |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108050625A (en) * | 2017-12-12 | 2018-05-18 | 广东申菱环境系统股份有限公司 | A kind of joint Cooling Air-conditioning System for data center module |
CN110505794A (en) * | 2019-08-26 | 2019-11-26 | 北京航空航天大学 | A kind of multimachine cabinet two phase heat-radiation system |
-
2017
- 2017-12-12 CN CN201721717817.6U patent/CN207849614U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108050625A (en) * | 2017-12-12 | 2018-05-18 | 广东申菱环境系统股份有限公司 | A kind of joint Cooling Air-conditioning System for data center module |
CN108050625B (en) * | 2017-12-12 | 2024-02-27 | 广东申菱环境系统股份有限公司 | Combined cooling air conditioning system for data machine room |
CN110505794A (en) * | 2019-08-26 | 2019-11-26 | 北京航空航天大学 | A kind of multimachine cabinet two phase heat-radiation system |
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