CN213334732U - Heating system of data center - Google Patents
Heating system of data center Download PDFInfo
- Publication number
- CN213334732U CN213334732U CN202021596263.0U CN202021596263U CN213334732U CN 213334732 U CN213334732 U CN 213334732U CN 202021596263 U CN202021596263 U CN 202021596263U CN 213334732 U CN213334732 U CN 213334732U
- Authority
- CN
- China
- Prior art keywords
- power supply
- water
- data
- data center
- heating system
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D3/00—Hot-water central heating systems
- F24D3/18—Hot-water central heating systems using heat pumps
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F5/00—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
Landscapes
- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- Management, Administration, Business Operations System, And Electronic Commerce (AREA)
Abstract
The embodiment of the disclosure relates to a heating system of a data center, which comprises a power supply end, a water cooling host machine set, a data machine room, a water supply pipeline and a water return pipeline; the power supply end is electrically connected with the cold water main machine set; the water cooling host machine set is connected with the data machine room through the water supply pipeline and is configured to refrigerate a cooling medium and output the cooling medium through the water supply pipeline; the data machine room is connected with the cold water main machine set through the water return pipeline, and the cold water main machine set is configured to receive cooling media through the water return pipeline; the heat pump unit is electrically connected with the power supply end; the heat pump unit is connected with the water return pipeline through the first connecting branch pipe; and the heat supply end is connected with the heat pump unit. The heating system of the data center is reasonable in structural design, and can utilize heat generated by the data machine room, so that energy is effectively saved.
Description
Technical Field
The embodiment of the disclosure relates to the technical field of communication machine rooms, in particular to a heating system of a data center.
Background
In recent years, with the rapid development of novel technologies such as 5G mobile communication, internet, cloud computing, big data, internet of things, AR/VR, artificial intelligence and the like, a data center is used as a user with a large energy use scale, and generates more heat in the operation process.
How to utilize the heat generated by the data center to realize the effective utilization of energy becomes a problem which needs to be solved urgently.
SUMMERY OF THE UTILITY MODEL
It is an object of embodiments of the present disclosure to provide an improved heating system for a data center.
According to an aspect of an embodiment of the present disclosure, there is provided a heating system of a data center, including:
the power supply end is electrically connected with the water cooling main machine set;
the water cooling system comprises a data machine room and a water supply pipeline, wherein the water cooling host machine set is connected with the data machine room through the water supply pipeline and is configured to refrigerate a cooling medium and output the cooling medium through the water supply pipeline;
a water return line through which the data room is connected with the cold water host unit, the cold water host unit being configured to receive a cooling medium through the water return line;
the heat pump unit is electrically connected with the power supply end; the heat pump unit is connected with the water return pipeline through the first connecting branch pipe, and a cooling medium in the first connecting branch pipe is heated by the heat pump unit;
and the heat supply end is connected with the heat pump unit, and the heated cooling medium is output by the heat supply end.
Optionally, the power supply terminals include a municipal power grid power supply terminal, a renewable energy power supply terminal and an energy storage device power supply terminal.
Optionally, the municipal power grid power supply end, the renewable energy power supply end and the energy storage device power supply end are electrically connected.
Optionally, in the first power supply state, the energy storage device power supply end is configured to store electric energy of the municipal power grid power supply end and/or the renewable energy power supply end.
Optionally, in a second power supply state, the power supply end of the energy storage device is configured to supply power to the cold water main unit.
Optionally, the heating system of the data center further comprises a cold storage tank;
and the cold accumulation tank is respectively connected with the cold water main unit and the data machine room through the water supply pipeline.
Optionally, in a first power supply state, the cold storage tank is configured to store the cooling medium output by the cold water main unit; in a second power supply state, the cold storage tank is configured to deliver a cooling medium to the data room.
Optionally, the heating end is connected with a district heating pipeline.
Optionally, the heating end is connected to a municipal heating line.
Optionally, the heat pump unit comprises a plurality of heat pump units.
The technical scheme of the embodiment of the disclosure has the beneficial effects that because the data computer lab produces a large amount of heat in the process of operation, the data computer lab is cooled down by conveying the lower cooling medium of temperature to the data computer lab, the lower cooling medium of temperature rises through the data computer lab temperature and forms the higher cooling medium of temperature, and the cold volume circulation of data computer lab is realized through water supply pipeline and return water pipeline. The cooling medium with higher temperature is formed into the cooling medium with higher temperature through the heat pump unit and is output through the heat supply end. The heat carried by the cooling medium with higher temperature is utilized to realize heating of the residential area and the like, so that the heat generated by the data machine room is effectively utilized, and the energy is saved.
Other features of the present disclosure and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the disclosure and together with the description, serve to explain the principles of the disclosure.
Fig. 1 is a schematic structural diagram of a heating system of a data center according to an embodiment of the present disclosure;
in the figure: 1. a power supply terminal; 11. a municipal power grid power supply terminal; 12. a renewable energy source power supply terminal; 13. a power supply end of the energy storage equipment; 21. a cold water main machine set; 211. a cold water main machine; 22. a water supply line; 23. a water return pipeline; 24. a cold storage tank; 25. a cooling tower; 3. a data machine room; 41. a heat pump unit; 42. a heat supply end.
Detailed Description
Various exemplary embodiments of the present disclosure will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present disclosure unless specifically stated otherwise.
The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the disclosure, its application, or uses.
Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.
In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.
It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.
As shown in fig. 1, the present embodiment provides a cooling and heating system of a data center, which includes a power supply terminal 1, a cooling device, a data room 3, and a heating device. The power supply end 1, the refrigeration equipment and the data machine room 3 form a refrigeration system of the data center; the power supply end 1, the data machine room 3 and the heating equipment form a heating system of the data center.
In a specific implementation mode, for example, summer, outdoor temperature is higher, and data computer lab 3 is difficult for the heat dissipation, and when needing to consume more energy and reduce data computer lab 3's temperature, refrigerating system refrigerates data computer lab 3 to refrigerate data computer lab 3 fast effectively, thereby guarantee data computer lab 3 normal stable work. For example, in winter, autumn and spring, the data room 3 may be cooled by natural cooling because the outdoor temperature is not high. However, because the data center generates more heat during operation, the natural cooling method is not enough to keep the data center in a normal temperature range, and the cooling equipment is still required to perform auxiliary cooling on the data center. At the moment, the refrigerating process of the data center releases more heat, and the heating system mainly utilizes waste heat of the data center to form a heat source for a community or a municipal pipe network, so that the utilization rate of energy is improved.
Specifically, the refrigeration equipment is electrically connected with the power supply end 1, and the power supply end 1 supplies power to the refrigeration equipment so as to ensure the normal operation of the refrigeration equipment. The refrigeration equipment comprises a cold water main machine set 21, a water supply pipeline 22, a water return pipeline 23 and a cold accumulation tank 24, wherein the cold water main machine set 21 is connected with the data machine room 3 through the water supply pipeline 22, and the cold water main machine set 21 is configured to refrigerate a cooling medium and output the cooling medium through the water supply pipeline 22. For example, the cooling medium cooled by the water chilling unit 21 is chilled water, and the chilled water is configured to supply cold to the data center and form return water, that is, the water forms chilled water in the water chilling unit 21 and is then conveyed to the data room 3 through the water supply pipeline 22, the chilled water cools the data room 3, and the temperature of the chilled water itself rises to form the return water. Data computer lab 3 passes through return water pipeline 23 with cold water host computer unit 21 is connected, cold water host computer unit 21 is configured as and passes through return water pipeline 23 receives coolant, and coolant in the return water pipeline 23 is the backward flow water, and the temperature of backward flow water is higher than the temperature of refrigerated water, and the backward flow water has carried the used heat that data center produced, and the backward flow water carries to cold water host computer unit 21 through return water pipeline 23 and carries out cooling once more to form the refrigerated water, the refrigerated water can refrigerate data computer lab 3, thereby realizes the water cycle between cold water unit and the data center, and data center realizes refrigeration or cooling at water cycle's in-process.
The cold storage tank is connected to the cold water main unit 21 and the data machine room 3 through the water supply line 22, and is configured to store the cooling medium, i.e., chilled water, having a relatively low temperature output from the cold water main unit 21 or to supply the cooling medium, i.e., chilled water, having a relatively low temperature to the data machine room 3. In the first power supply state, the cold storage tank is configured to store the cooling medium output by the cold water main unit 21; in the second power supply state, the cold storage tank is configured to deliver cooling medium to the data room 3. That is, the cold storage tank is used for storing chilled water in the first power supply state so as to output the chilled water to the data room 3 in the second power supply state, so as to realize the refrigeration requirement of the data room 3 in the second power supply state.
For example, the first power supply state may be a power consumption valley period, i.e., 23:00 to 7:00 the next day. Because this time quantum power consumption is less, and the charges of electricity are lower, and power supply end 1 can guarantee that data computer lab 3 and refrigeration plant's power supply is sufficient, and at this moment, cold-storage jar 24 can utilize the electric power of power consumption valley period to store the cold volume of cold water host machine unit 21 preparation with the form of refrigerated water to supply cold to data computer lab 3 at the power consumption peak, with the refrigeration efficiency of assurance data computer lab 3 at the power consumption peak.
The first power state may be a power peak period, i.e., 7:00 to 23: 00. Because this time quantum is the peak load of power consumption, not only the expense is higher, and the power consumption state is unstable moreover, and data center very easily appears because the power supply is not enough to lead to data center's refrigeration effect not good, at this moment, carries the refrigerated water to data center through cold storage tank, helps alleviating the cooling pressure of cold water host computer unit 21 to data computer lab 3 at the power consumption peak to further improve data center's refrigeration effect, guarantee data center's normal operating.
It should be noted that, the first power supply state and the second power supply state may also be set according to an actual operation state of the data center, so as to implement that the chilled water is stored in the cold storage tank in the first power supply state, and to transport the chilled water to the data center in the second power supply state, thereby ensuring a refrigeration effect of the data center, and enabling the data center to operate stably. The present disclosure does not limit specific time points of the first power supplying state and the second power supplying state.
For example, the power consumption of all the electric equipment such as the data center, the refrigeration equipment, the heating equipment and the like, which can ensure that the data center works normally, is set as a preset electric quantity, the electric quantity provided by the power supply terminal 1 is larger than the preset electric quantity to be in a first power supply state, at the moment, the cold quantity provided by the cold water host machine set 21 is enough to meet the refrigeration requirement of the data center, and the cold storage tank stores part of the chilled water output by the cold water host machine set 21; when the electric quantity provided by the power supply end 1 is smaller than the preset electric quantity and is in a second power supply state, the cold quantity provided by the cold water host machine set 21 is not enough to meet the refrigeration demand of the data center, and the cold storage tank outputs chilled water to the data center, so that the refrigeration effect of the data center is further improved, and the normal operation of the data center is ensured.
Chilled water is stored in the first power supply state through the cold storage tank to carry the chilled water to data center in the second power supply state, can effectively reduce the installation quantity of cold water host unit 21, reduce the working costs, realize that power load's peak clipping fills in the valley, guarantee data center's normal operating.
Further specifically, the heating equipment is electrically connected with the power supply end 1, and the power supply end 1 supplies power to the heating equipment; the heating device comprises a heat pump unit 41, a heating end 42 and a first connecting branch pipe, the heat pump unit 41 is connected with the water return pipeline 23 through the first connecting branch pipe, the heat pump unit 41 is configured to heat a cooling medium in the first connecting branch pipe and form warm water supply to be conveyed to the heating end 42, and the warm water supply is output through the heating end 42. The heat supply end 42 is connected to the heat pump unit 41, the heat pump unit 41 can heat the cooling medium that is branched to the first connecting branch pipe by the return line, and the heated cooling medium is output by the heat supply end 42. Because the cooling medium in the return line absorbs the heat generated by the data machine room 3, the temperature of the cooling medium is higher, and the cooling medium in the return line is heated and then output to the heat supply end 42, so that the heat generated by the data machine room 3 is favorably used for heating communities and the like, the utilization rate of resources is improved, and the energy is favorably saved.
When the temperature of the cooling medium in the return pipeline, namely the return water, is high, the return water can be directly output through the heating end without heating the return water by using the heat pump unit 41, so that the heat generated in the operation process of the data center is taken as a heat source for heating a community and the like, the energy recycling is realized, the utilization rate of energy is improved, and the energy saving is facilitated.
For example, in spring, autumn or winter, the data computer lab 3 is mainly natural cooling, and the refrigeration power consumption of the refrigerating system of the data computer lab 3 reduces, utilizes power supply end 1 to supply power to heat pump set 41, makes heat pump set 41 heat some high-temperature backflow water, forms warm water supply, can heat whole district, also can directly access municipal heating pipeline, utilizes the used heat that data center produced to form the heat source and realizes recycling, is favorable to improving the utilization ratio of the energy.
Optionally, the heating end 42 is connected to a district heating pipe. The heat supply end 42 is directly connected to the district heating pipe, and the district heating pipe is supplied with warm water by the heat supply end 42 to realize heating of the district. In winter and other times with lower temperature, the district is heated by utilizing the heat generated by the data center, so that the utilization rate of energy is improved, and the energy is saved.
Optionally, the heating end 42 is connected to a municipal heating line. The heating end 42 can also be connected with a municipal heating pipeline, the warm water supply directly enters the municipal heating pipeline from the heating end, the heating range is favorably improved, the laying of the heating pipeline is favorably saved, the heating effect is ensured, and the utilization rate of energy is higher.
Alternatively, the heat pump unit 41 includes a plurality of heat pump units. The plurality of heat pump units can significantly improve the heating effect of the heat pump unit 41 to quickly and efficiently heat the cooling medium that enters the heat pump unit 41 through the first connecting branch pipe. The stability of heating of the heating end 42 is realized.
In this embodiment, because data computer lab 3 produces a large amount of heat in the process of operation, through carrying the refrigerated water to data computer lab 3 and cooling down data computer lab 3, the refrigerated water rises through 3 temperature of data computer lab and forms the backward flow water, realizes data computer lab 3's energy circulation through supply line 22 and return water pipeline 23. The return water with higher temperature is formed into warm supply water through the heat pump unit 41 and is output through the heat supply end 42. The heating of residential areas and the like is realized by utilizing the energy carried by the backflow water, the heat generated by the data machine room 3 is effectively utilized, and the energy is saved.
Namely, the data machine room 3 is rapidly and effectively cooled by the refrigeration equipment in seasons with high temperature such as summer, so that the data machine room 3 can stably run; through the season that the temperature is lower such as winter, because data computer lab 3's natural cooling effect is better, data computer lab 3's refrigeration plant's power consumption is less, at this moment, form warm water supply after the higher cooling medium of temperature through forming data computer lab 3 refrigeration back heats promptly the backwash water, supply heat supplies such as district with output to heat supply end 42, not only can guarantee data computer lab 3's normal operating, moreover, can realize the reuse of used heat, be favorable to the energy saving, the utilization ratio of the energy improves.
Optionally, the refrigeration equipment further includes a cooling tower 25, the cooling tower 25 is connected to the heat pump unit 41, and the cooling tower 25 is configured to cool the heat pump unit 41, so as to reduce the temperature of the heat pump unit 41, and enable the heat pump unit 41 to work normally.
The usage state of the cooling tower 25 is: at higher outdoor temperature, for example, in summer, the load of the heat pump unit 41 is large, and a large amount of heat is generated during refrigeration, so that the temperature at the heat pump unit 41 is too high, which affects the operation of workers and is not beneficial to improving the refrigeration effect. This application adopts cooling tower 25 to heat generating end (like the condenser) of heat pump set 41, cools off the heat dissipation for heat pump set keeps good operating condition, improves the refrigeration effect to high data computer lab 3, guarantees data computer lab 3's normal steady operation.
Optionally, the power supply terminal 1 comprises a municipal power grid power supply terminal 11, a renewable energy power supply terminal 12 and an energy storage device power supply terminal 13. Can satisfy data computer lab 3, refrigeration plant, heating equipment's power consumption demand through municipal power grid supply end 11, renewable energy power supply end 12 and energy storage equipment power supply end 13 for data computer lab 3 can be in the stable work of sufficient state of supplying power.
The renewable energy power supply end 12 can be green renewable energy such as solar power generation power, wind power generation power and the like, and the renewable energy is used as the power supply end 1, so that the pollution of thermal power generation to the environment can be effectively reduced, the environment can be protected, and the virtuous cycle of resource utilization can be realized.
Optionally, the municipal power grid power supply terminal 11, the renewable energy power supply terminal 12 and the energy storage device power supply terminal 13 are electrically connected. Municipal power grid power supply end 11, renewable energy power supply end 12 and energy storage equipment power supply end 13 are connected through the circuit, and in the process of the selection to power supply end 1, renewable energy power supply end 12 is preferred to realize data computer lab 3 normal operating, can protect the environment better.
Optionally, in the first power supply state, the energy storage device power supply end 13 is configured to store the electric energy of the municipal power grid power supply end 11 and/or the renewable energy power supply end 12.
In the second power supply state, the energy storage device power supply end 13 is configured to supply power to the refrigeration device and/or the heating device. The power supply end 13 of the energy storage device serves as an emergency power supply end 1 to solve the problem of insufficient power supply in the operation process of the data machine room 3. When the power supply is sufficient, the power terminal 13 of the energy storage device can store part of the electric energy to be used when the power supply is insufficient.
For example, in the electricity consumption valley period, the power supply amount of the power supply terminal 1 is sufficient, at this time, the price of the electricity fee is also low, the power supply terminal 13 of the energy storage device can store the electric energy of the municipal power grid power supply terminal 11 and/or the renewable energy source power supply terminal 12, so as to supply power to the data machine room 3 and the like in the electricity consumption peak period, so as to relieve the power supply pressure of the municipal power grid power supply terminal 11 and/or the renewable energy source power supply terminal 12 in the electricity consumption peak period, and also so as to ensure the smooth operation of the data machine room 3.
In this embodiment, data computer lab 3 is at the in-process of operation, adopt municipal power grid power supply end 11 and renewable energy power supply end 12 to jointly supply power, preferentially adopt renewable energy power supply end 12 to realize the cold-storage of data computer lab 3, electric power storage, guaranteed the refrigeration of data computer lab 3, power supply system's stability, also can effectively realize the purpose of the supply and demand adjustment of data computer lab 3 and off-peak power consumption simultaneously, be favorable to guaranteeing the steady operation of data computer lab 3 in the power consumption peak period, also help practicing thrift the cost.
Optionally, the main chiller unit 21 includes a plurality of main chillers 211. A plurality of cold water host computers 211 can realize carrying out quick refrigeration cooling to coolant after the cooling promptly the refrigerated water can refrigerate data computer lab 3 effectively, thereby guarantee data computer lab 3's even running.
The plurality of cold water main units 211 are arranged side by side, which is helpful for optimizing the layout of the cold water main unit 21, not only facilitating the installation and layout of various circuits and pipelines, but also helping the overhaul work of the cold water main unit 21.
Optionally, the cold water main machine 211 is an air-conditioning refrigeration device. Air conditioner refrigeration plant's refrigeration efficiency is higher, can realize quick refrigeration cooling to coolant and form the refrigerated water, has guaranteed that coolant has lower temperature to the refrigerated water carries out quick effective cooling to data computer lab 3 at hydrologic cycle's in-process.
Through coolant at water supply pipe and return water pipeline mesocycle to realize data computer lab 3 at the refrigeration cooling of operation process, refrigeration efficiency is higher, helps cooling down data computer lab 3 steadily moreover, keeps data computer lab 3 to have suitable operating temperature, thereby helps guaranteeing data computer lab 3's steady operation.
The present disclosure provides a data center's refrigeration and heating, adopt foretell data center's refrigeration and heating system, include:
in the first power supply state, the cold storage tank 24 receives and stores the cooling medium output from the main chiller unit 21.
Because under first power supply state, the electric quantity supply of feed end 1 is more sufficient, and the charges of electricity are also lower, and at this moment, the lower coolant that cold-storage jar can the storage temperature is chilled water promptly to under the electric quantity supply of feed end 1 is not enough, alleviate the cooling pressure of cold water host unit 21, carry out quick effective cooling to data computer lab 3.
In the second power supply state, the cold storage tank 24 outputs the cooling medium to the data room 3.
Because the power supply amount of the power supply end 1 is insufficient in the second power supply state, at this time, the cooling pressure of the water chilling main unit 21 is large, and the data machine room 3 may have an operation fault due to poor cooling effect. At the moment, the cold storage tank is used for storing the cooling medium, namely chilled water, with lower temperature, so that the data machine room 3 is cooled, the effect is better, and the operation is very convenient. And the electricity consumption cost is saved.
Optionally, in the first power supply state, the energy storage device power supply end 13 stores the electric energy output by the municipal power grid power supply end 11 and/or the renewable energy power supply end 12.
Under the first power supply state, the electric quantity of power supply end 1 is more sufficient, and is also more stable, and the charges of electricity are also lower, and at this moment, energy storage equipment stores municipal power grid power supply end 11 and/or the electric energy of renewable energy source power supply end 12's output, helps practicing thrift the cost, also helps alleviating power supply end 1's pressure in the power consumption peak period, realizes that power supply end 1 can stably supply power to data computer lab 3 etc. realizes data computer lab 3's even running.
In the second power supply state, the energy storage device power supply end 13 supplies power to the refrigeration device and/or the heating device.
For example, in the second power supply state, the energy storage device power supply end 13 is configured to supply power to the cold water main unit 21. The second power supply state is a power consumption peak period, at this time, not only the municipal power grid power supply end 11 and/or the renewable energy power supply end 12 supplies power to the water chilling main unit set 21, but also the energy storage device power supply end 13 supplies power to the water chilling main unit set 21 at the same time, so that the water chilling main unit set 21 is ensured to normally work in a state of sufficient power supply, and the refrigeration effect of the data machine room 3 is ensured.
In the second power supply state, the municipal power grid power supply terminal 11 and/or the renewable energy power supply terminal 12 supplies power to the cold water main unit 21. The electric quantity in the second power supply state is sufficient, the electric energy supplied by the municipal power grid power supply end 11 and/or the renewable energy power supply end 12 is sufficient to meet the working requirement of the data machine room 3, and at this time, the municipal power grid power supply end 11 and/or the renewable energy power supply end 12 are only required to supply power to the water chilling main unit 21. Meanwhile, the power supply end 13 of the energy storage device can store the electric energy of the municipal power grid power supply end 11 and/or the renewable energy power supply end 12, so that the power supply pressure of the power supply end 1 is relieved in a state of power shortage, the stability of electric energy supply is ensured, and the stable operation of the data machine room 3 is realized.
Under first power supply state, because for the power consumption peak period, the electric quantity supply of feeder ear 1 is more nervous, can lead to the not good condition of refrigeration effect of data computer lab 3, and at this moment, the electric quantity that stores through energy storage equipment feeder ear 13 supplies power to data computer lab 3 etc. helps alleviating the pressure of feeder ear 1 in the power consumption peak period, realizes that feeder ear 1 can stably supply power to data computer lab 3 etc. realizes the even running of data computer lab 3.
In addition, the energy storage device power supply terminal 13 can charge the power storage system with wind power generation power or solar power generation power which are output unnecessarily and unstably, and can output power from the power storage system instantly when the power consumption is increased rapidly, so that the frequency is stable, namely, the energy storage device power supply terminal 13 can output power to the data machine room 3 and the like stably under the condition of power supply shortage. Not only makes power output more stable, can also reduce carbon dioxide's emission by a wide margin, can protect the environment better.
In this embodiment, refrigeration plant's cold-storage tank can store microthermal coolant to provide microthermal coolant to data computer lab 3 under the state that data computer lab 3's cooling effect reduced, with the cooling effect who improves data computer lab 3, thereby guarantee data computer lab 3's normal and steady operation.
In addition, in winter, the heating equipment utilizes the heat generated by the operation of the data machine room 3 and forms a cooling medium with higher temperature to supply heat for a residential area or a municipal heating pipe network and the like, so that the heat generated by the data machine room 3 is effectively utilized, and the energy is saved.
Although some specific embodiments of the present disclosure have been described in detail by way of example, it should be understood by those skilled in the art that the foregoing examples are for purposes of illustration only and are not intended to limit the scope of the present disclosure. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the present disclosure. The scope of the present disclosure is defined by the appended claims.
Claims (10)
1. A heating system of a data center, comprising:
the power supply end is electrically connected with the water cooling main machine set;
the water cooling system comprises a data machine room and a water supply pipeline, wherein the water cooling host machine set is connected with the data machine room through the water supply pipeline and is configured to refrigerate a cooling medium and output the cooling medium through the water supply pipeline;
a water return line through which the data room is connected with the cold water host unit, the cold water host unit being configured to receive a cooling medium through the water return line;
the heat pump unit is electrically connected with the power supply end; the heat pump unit is connected with the water return pipeline through the first connecting branch pipe, and a cooling medium in the first connecting branch pipe is heated by the heat pump unit;
and the heat supply end is connected with the heat pump unit, and the heated cooling medium is output by the heat supply end.
2. The heating system of the data center according to claim 1, wherein the power supply terminals comprise a municipal power grid power supply terminal, a renewable energy power supply terminal and an energy storage device power supply terminal.
3. The heating system of the data center according to claim 2, wherein the municipal power grid power supply terminal, the renewable energy power supply terminal and the energy storage device power supply terminal are electrically connected.
4. The heating system of the data center according to claim 2, wherein in the first power supply state, the energy storage device power supply end is configured to store electric energy of the municipal power grid power supply end and/or the renewable energy power supply end.
5. The heating system of the data center according to claim 2, wherein in the second power supply state, the energy storage device power supply end is configured to supply power to the cold water main unit.
6. The heating system of the data center according to claim 1, further comprising an accumulator tank;
and the cold accumulation tank is respectively connected with the cold water main unit and the data machine room through the water supply pipeline.
7. The heating system of the data center according to claim 6, wherein in the first power supply state, the cold storage tank is configured to store the cooling medium output by the cold water host unit; in a second power supply state, the cold storage tank is configured to deliver a cooling medium to the data room.
8. The heating system of the data center according to claim 1, wherein the heating end is connected to a district heating pipe.
9. The heating system of the data center according to claim 1, wherein the heating end is connected to a municipal heating pipeline.
10. The heating system of the data center according to claim 1, wherein the heat pump unit includes a plurality of heat pump units.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021596263.0U CN213334732U (en) | 2020-08-04 | 2020-08-04 | Heating system of data center |
PCT/CN2021/076967 WO2022027955A1 (en) | 2020-08-04 | 2021-02-20 | Data centre heating system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021596263.0U CN213334732U (en) | 2020-08-04 | 2020-08-04 | Heating system of data center |
Publications (1)
Publication Number | Publication Date |
---|---|
CN213334732U true CN213334732U (en) | 2021-06-01 |
Family
ID=76093825
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202021596263.0U Active CN213334732U (en) | 2020-08-04 | 2020-08-04 | Heating system of data center |
Country Status (2)
Country | Link |
---|---|
CN (1) | CN213334732U (en) |
WO (1) | WO2022027955A1 (en) |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105258260A (en) * | 2015-11-02 | 2016-01-20 | 国网天津市电力公司 | Bus-type hybrid air-conditioning system capable of achieving heat recycling of computer room of internet data center in winter |
CN205299850U (en) * | 2016-01-22 | 2016-06-08 | 中国建筑科学研究院 | Data center waste heat recovery's energy supply system |
CN207797279U (en) * | 2017-12-15 | 2018-08-31 | 大连中盈能源管理有限公司 | A kind of hydrate accumulation of energy Air Conditioning System with Heat for data center module |
CN108566761B (en) * | 2018-01-26 | 2019-11-08 | 青岛理工大学 | Heat extraction and waste heat utilization system of data machine room adopting cabinet-level heat pipe |
CN108469111A (en) * | 2018-04-02 | 2018-08-31 | 中首能能源投资(北京)有限公司 | A kind of control method of residual neat recovering system and residual neat recovering system based on data center |
-
2020
- 2020-08-04 CN CN202021596263.0U patent/CN213334732U/en active Active
-
2021
- 2021-02-20 WO PCT/CN2021/076967 patent/WO2022027955A1/en active Application Filing
Also Published As
Publication number | Publication date |
---|---|
WO2022027955A1 (en) | 2022-02-10 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN109696891B (en) | Micro energy network system comprising air source heat pump and energy storage and operation control method thereof | |
CN108625988B (en) | CCHP micro-grid structure containing compressed air energy storage and operation method thereof | |
CN110345549B (en) | Liquid cooling data center waste heat recovery system | |
CN112212539B (en) | Intelligent energy system with multi-source power and edge cloud | |
CN210892246U (en) | Comprehensive energy system based on reversible expander | |
CN213334733U (en) | Refrigerating system of data center | |
CN114033518B (en) | Comprehensive energy system based on carbon dioxide Carnot battery and operation method | |
CN206023657U (en) | There is the portable multiple-energy-source Coupling Thermal thermoelectricity compound type energy source station of real-time control system | |
CN212481557U (en) | Data center's refrigeration and heating system | |
CN108448944B (en) | Data center waste heat power generation system | |
CN113587189B (en) | Renewable energy source heating system and method | |
CN212691727U (en) | Thermal power plant coupling data center comprehensive energy system | |
CN111878941A (en) | Refrigerating and heating system and method of data center | |
CN210921858U (en) | Multifunctional comprehensive utilization system of data center | |
CN213334732U (en) | Heating system of data center | |
CN115727384B (en) | Heating system for realizing peak shaving and cross-season heat storage of thermoelectric unit and operation method | |
CN215446718U (en) | Data center waste heat recovery heating system | |
CN114190052A (en) | Distributed comprehensive energy system for data center | |
CN212806099U (en) | Solar energy and gas coupled multi-energy complementary energy supply system | |
CN210952019U (en) | Data computer lab energy management system based on LNG cold energy utilizes technique | |
CN208174578U (en) | Data center's afterheat generating system | |
CN204923541U (en) | Utilize cryogenic cooling system of waste heat of generator motor | |
CN221349247U (en) | Uninterrupted heat supply system of solar photovoltaic waste heat combined heat pump | |
CN218159074U (en) | Park-level multi-energy complementary comprehensive energy system | |
CN220629303U (en) | Off-grid photovoltaic-based heat exchange system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |