CN217509328U - Data center computer waste heat recovery system - Google Patents

Abstract

The utility model relates to the technical field of waste heat recovery, specifically disclose a data center computer waste heat recovery system, including cooling tower unit, moisturizing mechanism, computer cooling mechanism and water source heat pump set, water source heat pump set is equipped with the multiunit, water source heat pump set is equipped with the water source heat pump, connector one passes through computer water supply pipe connection computer cooling mechanism, connector two passes through computer wet return and connects computer cooling mechanism, connector two passes through the heat pump water supply pipe connection water knockout drum, be equipped with a plurality of user side delivery pipes on the water knockout drum, user side delivery pipe connection user side wet return, user side wet return is connected on the water collector, the water collector passes through connector one of heat pump water source heat pump of heat pump connection, waste heat for computer cooling mechanism is provided user side circulation water supply after being handled through water source heat pump set; the utility model discloses realize the centralized processing and the recycling of computer waste heat, reduce thermal waste, reduce the use of the heating energy, energy saving and emission reduction more.

Description

Data center computer waste heat recovery system

Technical Field

The utility model relates to a waste heat recovery technical field, concretely relates to data center computer waste heat recovery system.

Background

The current data center has the characteristics of large scale, high density, higher refrigeration requirement, normality of local overheating and the like, and the high-power refrigeration of a data machine room provides higher requirement on air conditioning refrigeration. The short-time termination of the cooling of the air conditioning system can cause overheating and downtime of IT facilities. Therefore, the data center server can generate a large amount of heat in the operation process, the heat has the characteristics of easiness in extraction, sufficient heat source and the like, the waste heat of the data center is recycled by utilizing the heat pump technology, the application prospect in the data center is wide, and particularly in northern areas of China, the heat pump system can effectively help users to reduce the heat consumption cost. According to rough statistics, the total amount of recoverable waste heat of a data center in northern China is about 10GW according to the scale calculation of the existing data center, and theoretically, the data center can support 3 hundred million square meters of building heating.

As shown in fig. 1, the conventional data center cooling measures are mainly composed of a cooling tower, a plate heat exchanger, a cooling water pump, a chilled water pump and the like, the temperature required by the data center is generally 20-28 ℃, the water temperature is reduced to 15-21 ℃ through the cooling tower, cold water flows through a copper pipe to take away heat of a processor, so that the cooling tower is required to discharge heat generated by a computer, and the heat generated by the computer is completely wasted. The computer also generates a large amount of heat in winter, and the heat can be freely utilized when heating is needed in winter, and waste heat is recovered through the water cooling unit. Therefore, a data center computer waste heat recovery system is urgently needed to be designed to solve the problem of waste heat of the existing computer.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the prior art, the utility model aims to provide a data center computer waste heat recovery system.

The utility model provides a technical scheme that its technical problem adopted is: a computer waste heat recovery system of a data center comprises a cooling tower unit, a water supplementing mechanism, a computer cooling mechanism and a water source heat pump unit, the water source heat pump units are provided with a plurality of groups, each water source heat pump unit is provided with a water source heat pump, each water source heat pump is provided with a first connecting port, a second connecting port, a third connecting port and a fourth connecting port, the first connecting port is connected with the computer cooling mechanism through a computer water supply pipe, the hot water used for the computer cooling mechanism enters a water source heat pump, a second connecting port is connected with the computer cooling mechanism through a computer water return pipe, a second connecting port is connected with a water separator through a heat pump water supply pipe, the water separator is provided with a plurality of user side water supply pipes, the user side water supply pipes are connected with a user side water return pipe, the user side water return pipe is connected with a water collector, the water collector is connected with a first connecting port of a water source heat pump through a heat pump water return pipe, the waste heat used for the computer cooling mechanism is processed by the water source heat pump unit and then circularly supplied to the user side.

Furthermore, the third connector and the fourth connector of the water source heat pump are both connected with a cooling tower unit through a cooling tower water supply pipe, and a group of diffusion filters, a water pump and a multifunctional valve are installed on the cooling tower water supply pipe.

Furthermore, the water outlet of the cooling tower unit is connected with a water tank of a water supplementing mechanism through a water return pipe, the water supplementing mechanism is further provided with a tap water inlet, a water tank and a water supplementing pump, the tap water inlet is connected with the water tanks through pipelines, the water supplementing pump is installed on a pipeline of a water outlet of the water tank and connected with a water supplementing pipe, and the water supplementing pipe is connected to a computer cooling mechanism and used for supplementing cold water for the computer cooling mechanism for cooling.

Furthermore, a diffusion filter, a water pump and a multifunctional valve are sequentially arranged on the water supply pipe of the computer and in front of the connecting port.

Furthermore, a diffusion filter, a water pump and a multifunctional valve are sequentially arranged on the heat pump water return pipe and in front of the connecting port.

The utility model discloses following beneficial effect has:

the utility model discloses a data center computer waste heat recovery system passes through the hot water that water source heat pump set will produce and supplies user's pipeline in, realizes the centralized processing and the recycle of computer waste heat, reduces thermal waste, improves user's heating capacity, reduces the use of the heating energy, more energy saving and emission reduction.

Drawings

Fig. 1 is a schematic structural diagram of a conventional computer waste heat dissipation system of a data center.

FIG. 2 is a schematic diagram of a data center computer waste heat recovery system.

Fig. 3 is an enlarged view at a in fig. 2.

Fig. 4 is an enlarged view at B in fig. 2.

In the figure: 1-cooling tower units;

2-water supplementing mechanism, 2.1-tap water inlet, 2.2-water tank, 2.3-water supplementing pump, 2.4-water supplementing pipe and 2.5-water return pipe;

3-a computer cooling mechanism; 4-a plate heat exchanger;

5-water source heat pump unit, 5.1-water source heat pump, 5.2-diffusion filter, 5.3-multifunctional valve, 5.4-water pump, 5.5-computer water supply pipe, 5.6-computer water return pipe, 5.7-heat pump water supply pipe, 5.8-heat pump water return pipe, 5.9-cooling tower water supply pipe;

6-a water separator; 7-user side water supply pipe; 8-a water collector; 9-a user side water return pipe.

Detailed Description

The technical solution in the embodiments of the present invention will be described in further detail in the following clearly and completely with reference to the accompanying drawings in the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 2-4, a data center computer waste heat recovery system comprises a cooling tower unit 1, a water supplementing mechanism 2, a computer cooling mechanism 3, a water source heat pump unit 5, a water separator 6 and a water collector 8, wherein the water source heat pump unit 5 is provided with two groups, the water source heat pump unit 5 is provided with a water source heat pump 5.1, the water source heat pump 5.1 is provided with a first connecting port, a second connecting port, a third connecting port and a fourth connecting port, the first connecting port is connected with the computer cooling mechanism 3 through a computer water supply pipe 5.5 and used for hot water of the computer cooling mechanism 3 to enter the water source heat pump 5.1, the second connecting port is connected with the computer cooling mechanism 3 through a computer water return pipe 5.6 and used for cold water to flow back to the computer cooling mechanism 3, the second connecting port is connected with the water separator 6 through a heat pump water supply pipe 5.7, the water supply pipe 7 at the user side is connected with a heating device of a user, heating equipment connects user side wet return 9, and user side wet return 9 connects on water collector 8, and water collector 8 passes through heat pump wet return 5.8 and connects the connector one of water source heat pump 5.1 for the waste heat of computer cooling mechanism is handled through water source heat pump set 5 and is given user side circulation water supply.

And the third connector and the fourth connector of the water source heat pump 5.1 are both connected with the cooling tower unit 1 through a cooling tower water supply pipe 5.9, and one cooling tower water supply pipe 5.9 is provided with a group of diffusion filters 5.2, a water pump 5.4 and a multifunctional valve 5.3. And a diffusion filter 5.2, a water pump 5.4 and a multifunctional valve 5.3 are sequentially arranged on the water supply pipe 5.5 of the computer and in front of the connecting port. And a diffusion filter 5.2, a water pump 5.4 and a multifunctional valve 5.3 are sequentially arranged on the heat pump water return pipe 5.8 and in front of the first connecting port. For filtering and controlling water flow.

The water outlet of the cooling tower unit 1 is connected with a water tank 2.2 of a water supplementing mechanism 2 through a water return pipe 2.5, the water supplementing mechanism 2 is further provided with a tap water inlet 2.1, the water tank 2.2 and a water supplementing pump 2.3, the tap water inlet 2.1 is connected with the two water tanks 2.2 through pipelines, the water supplementing pump 2.3 is installed on a pipeline of a water outlet of the water tank 2.2, the water supplementing pump 2.3 is connected with a water supplementing pipe 2.4, and the water supplementing pipe 2.4 is connected to a computer cooling mechanism 3 and used for supplementing cold water for the computer cooling mechanism 3 for cooling.

The utility model discloses not be limited to above-mentioned embodiment, anybody should learn the structural change who makes under the teaching of the utility model, all with the utility model discloses have the same or close technical scheme, all fall into the utility model discloses an within the protection scope.

The technology, shape and construction parts which are not described in detail in the present invention are all known technology.

Claims (5)

1. A computer waste heat recovery system of a data center is characterized by comprising a cooling tower unit, a water supplementing mechanism, a computer cooling mechanism and a water source heat pump unit, the water source heat pump units are provided with a plurality of groups, each water source heat pump unit is provided with a water source heat pump, each water source heat pump is provided with a first connecting port, a second connecting port, a third connecting port and a fourth connecting port, the first connecting port is connected with the computer cooling mechanism through a computer water supply pipe, the hot water used for the computer cooling mechanism enters a water source heat pump, a second connecting port is connected with the computer cooling mechanism through a computer water return pipe, a second connecting port is connected with a water separator through a heat pump water supply pipe, the water separator is provided with a plurality of user side water supply pipes, the user side water supply pipes are connected with a user side water return pipe, the user side water return pipe is connected with a water collector, the water collector is connected with a first connecting port of a water source heat pump through a heat pump water return pipe, the waste heat used for the computer cooling mechanism is processed by the water source heat pump unit and then circularly supplied to the user side.

2. The data center computer waste heat recovery system of claim 1, wherein the third connection port and the fourth connection port of the water source heat pump are both connected with the cooling tower unit through a cooling tower water supply pipe, and a set of diffusion filter, water pump and multifunctional valve are installed on the cooling tower water supply pipe.

3. The computer waste heat recovery system of the data center according to claim 1, wherein the outlet water of the cooling tower unit is connected to a water tank of a water supply mechanism through a water return pipe, the water supply mechanism is further provided with a tap water inlet, a water tank and a water supply pump, the tap water inlet is connected to the plurality of water tanks through a pipeline, the water supply pump is mounted on a pipeline of a water outlet of the water tank, the water supply pump is connected to a water supply pipe, and the water supply pipe is connected to the computer cooling mechanism and used for supplying cold water to the computer cooling mechanism for cooling.

4. The data center computer waste heat recovery system of claim 1, wherein a diffusion filter, a water pump and a multifunctional valve are sequentially installed on the computer water supply pipe and in front of the connection port.

5. The data center computer waste heat recovery system of claim 1, wherein a diffusion filter, a water pump and a multifunctional valve are sequentially installed on the heat pump water return pipe and in front of the connection port.

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