KR20230158948A - Marine green data center system - Google Patents

Abstract

The marine green data center system is launched. The marine green data center system according to an embodiment of the present invention includes a floating station unit; A data center unit having at least one data server therein and connected to the lower part of the floating station unit to cool the data server and placed in the water; and a data center positioning unit that is coupled between the floating station unit and the data center unit and adjusts the position where the data center unit is placed for stable placement of the data center unit.

Description

Marine green data center system

The present invention relates to a marine green data center system. More specifically, the data center installed underwater can be arranged to be maintained more stably by minimizing the flow, and the data center can be efficiently cooled using seawater. , Furthermore, it is about a marine green data center system that can more stably supply the power needed inside the data center.

A data center is a facility that provides server computers and network lines, and is a facility where computer systems, communication equipment, and storage devices are installed.

Data centers began to attract attention when the Internet began to become active. This is because companies needed dedicated facilities to use the Internet quickly and conveniently. Large companies began to have large-scale facilities called Internet Data Centers (IDC), and smaller companies began to entrust the storage and management of their equipment to companies with specialized facilities to reduce costs. Internet data centers are called server hotels or rental server apartments because they take charge of and manage a company's Internet equipment (servers).

Recently, as part of the 4th Industrial Revolution, data usage related to AI, 5G, big data, cloud, and autonomous driving has rapidly increased, leading to an increasing demand for data center construction.

Since these data centers are paralyzed if the power supply is interrupted even for a moment, reliability and continuity are important design factors, such as being equipped with spare power supply and spare data communication equipment.

In addition, since server equipment emits heat, facilities are installed to cool it, and this server cooling system uses a lot of power, amounting to more than 40% of the total data center power. Additionally, it is equipped with firefighting facilities and security devices.

However, as is currently the case, building a data center on land requires a high-rise building or a large-scale building, and since a lot of power is required to drive and cool the server computer, there is a problem of high power consumption costs.

Additionally, there is a problem in that data centers may be destroyed by natural disasters such as earthquakes/floods or external factors such as war, resulting in loss of important information.

In particular, the introduction of green data centers that optimize/higher efficiency the power used by data centers and actively utilize new and renewable energy as an energy source is increasing recently in order to become carbon neutral and respond to climate change, but it is difficult to reflect this in the design. To achieve this, many constraints arise in selecting a location for an onshore data center.

Therefore, since there are problems and limitations described above in constructing a data center on land as is currently the case, it is necessary to develop a form of installing a data center underwater.

However, in this type of data center installation at sea, there is a problem in that it is not easy to maintain the data center stably, unlike when it is installed on land. For example, when an external force such as a typhoon occurs, It is necessary to place it underwater so that the data center can be maintained more stably without significant movement.

In addition, there is a need for the development of a data center system that can efficiently cool the data center and more stably supply the power needed to cool the data center.

Republic of Korea Public Utility Model Publication No. 10-2020-0000803, (2020.04.22.)

Therefore, the technical problem to be achieved by the present invention is to minimize the flow of the data center installed underwater, so that it can be arranged to be maintained more stably, to efficiently cool the data center using seawater, and furthermore, to minimize the flow of the data center installed in the water. The goal is to provide a marine green data center system that can supply power more stably.

According to one aspect of the invention, a floating station unit; A data center unit having at least one data server therein and connected to a lower part of the floating station unit to cool the data server and placed in the water; And a marine green data center system that is coupled between the floating station unit and the data center unit and includes a data center positioning unit that adjusts the position where the data center unit is placed for stable placement of the data center unit. This can be provided.

The data center unit may include a data server cooling module for cooling the data server using surrounding seawater.

The data server cooling module includes a cooling pipe through which a cooling liquid that absorbs heat emitted from the data server flows; a heat exchanger to which the cooling pipe is connected and which exchanges heat between the cooling liquid and the seawater; And it is connected to the heat exchanger and may include a seawater pipe for heat exchange through which the seawater flows.

The floating station unit includes a power supply module provided on one side of the station base to supply power to the inside of the data center unit; And it may include a battery module that charges the power supplied by the power supply module and selectively supplies the charged power to the interior of the data center unit.

The power supply module may be a self-generating power supply module capable of generating power on its own using one or more forces selected from wind power, wave power, and solar power.

The floating station unit is connected to the data server and may further include a communication module that performs data communication between the data server and a demand source on the ground through a network.

Embodiments of the present invention provide a data center position adjustment unit that adjusts the position where the data center unit is placed, so that the data center unit installed underwater can be arranged to be maintained more stably by minimizing the movement.

In addition, by providing a data server cooling module to cool the data server using seawater around the data center unit, the data center can be cooled efficiently, and by providing a self-generating power supply module and a battery module that can generate power on their own. , the power needed inside the data center can be supplied more stably.

Figure 1 is a perspective view schematically showing an ocean green data center system according to an embodiment of the present invention.
FIG. 2 is a configuration diagram schematically showing the data server and data server cooling module of the data center unit of FIG. 1.

In order to fully understand the present invention, its operational advantages, and the objectives achieved by practicing the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in detail by explaining preferred embodiments of the present invention with reference to the accompanying drawings. The same reference numerals in each drawing indicate the same member.

Figure 1 is a perspective view schematically showing an ocean green data center system according to an embodiment of the present invention, and Figure 2 is a configuration diagram schematically showing the data server and data server cooling module of the data center unit of Figure 1.

As shown in these drawings, the marine green data center system according to an embodiment of the present invention includes a floating station unit 100, a data center unit 300, and a data center positioning unit 500. .

First, the floating station unit 100 includes a station base 110, a power supply module 130, a battery module 150, and a communication module 170.

The station base 110 serves to provide the buoyancy necessary for the marine green data center system. That is, the power supply module 130 and communication module 170 provided on the upper part of the station base 110 are supported so that they are located above sea level, and the battery module 150 and data center unit 300 are prevented from sinking. It plays a role in supporting the

This station base 110 is so large and complex that, depending on the scale of the marine green data center system, passageways for workers to move for maintenance and various facilities for operating the marine green data center system may be provided inside. There may be cases where it is designed to do so, and alternatively, it may be prepared on a small scale to generate simple buoyancy.

In addition, the form of the marine green data center system shown in FIG. 1 is an exemplary form, and the present invention is not limited thereto and may be provided in various forms.

The power supply module 130 is provided on one side of the station base 110 and serves to supply power to the inside of the data center unit 300, and generates power on its own using one or more powers selected from wind power, wave power, and solar power. It can be prepared as a self-generated power supply module.

According to an embodiment of the present invention, as shown in Figure 1, the self-generated power supply module is provided in a form that simultaneously includes a wind power generation module 131 using wind power and a solar power generation module 132 using solar power. , it can be arranged to supply power more stably by using wind power and solar power simultaneously.

However, the present invention is not limited to this, and can be prepared in various combinations so that one or more powers selected from wind power, wave power, and solar power can be used, and furthermore, power generation can be made using various energies other than wind power, wave power, and solar power. It could be provided.

In addition, a separate power cable connected to the coast can be installed along with the self-generated power supply module, so that power can be supplied by wire when self-generated power is not possible.

The battery module 150 charges the power supplied by the power supply module 130 and selectively supplies the charged power to the inside of the data center unit 300.

In other words, the power generated by the self-generation power supply module is stored in reserve and can be used when self-generation is not possible.

The communication module 170 is connected to the data server 310 and serves to perform data communication between the data server 310 and a demand source on the ground (not shown) through a network.

Depending on the location of the system and the amount of data required for communication, provision may be made to selectively connect to a wireless network or a wired network.

Meanwhile, the data center unit 300 has at least one data server 310 and a data server cooling module 330 therein, and the lower part of the floating station unit 100 is installed to cool the data server 310. It is connected to and placed underwater.

The data server 310 includes a computer system, communication equipment, storage equipment, etc., and a varying number of data servers 310 may be placed depending on the size of the data center unit 300.

Since the data server 310 emits a lot of heat while processing data, a data server cooling system is required to cool it, and this data server cooling system uses a lot of power, amounting to more than 40% of the total data center power. Therefore, as mentioned above, in order to cool the system more efficiently while consuming less power, it is necessary to establish an underwater data center, unlike the current data center on land.

Therefore, according to the present invention, by placing the data center unit 300 in water and providing a data server cooling module 330, the data server 310 is more effectively cooled using seawater around the data center unit 300. You can do it.

As shown in detail in FIG. 2, this data server cooling module 330 includes a cooling pipe 331, a heat exchanger 333, and a seawater pipe 335 for heat exchange.

Cooling liquid flows inside the cooling pipe 331. The cooling pipe 331 may be placed adjacent to the data server 310, and the cooling fluid flowing inside the cooling pipe 331 absorbs heat emitted from the data server 310. At this time, the cooling liquid flowing inside the cooling pipe 331 may absorb heat from the data server 310 in various ways, including air cooling, water cooling, and liquid immersion.

This cooling pipe 331 is connected to the heat exchanger 333 and passes through the heat exchanger 333.

The cooling liquid flowing through the cooling pipe 331 exchanges heat with seawater flowing inside the heat exchange seawater pipe 335 in the heat exchanger 333 and transfers the heat absorbed from the data server 310 to the seawater.

The seawater pipe 335 for heat exchange is connected to the heat exchanger 333 and passes through the heat exchanger 333. Seawater flows in the seawater pipe 335 for heat exchange. This heat exchange seawater pipe 335 is connected to the outlet 302 of the data center unit 300.

A cooling pipe 331 and a heat exchange seawater pipe 335 are connected to the heat exchanger 333, and serve to exchange heat between the cooling liquid and seawater.

The cooling pipe 331 and the heat exchange seawater pipe 335 pass through the inside of the heat exchanger 333. In this embodiment, the cooling pipe 331 and the heat exchange seawater pipe 335 are arranged adjacent to each other inside the heat exchanger 333, so that the cooling liquid and seawater can easily exchange heat in the heat exchanger 333.

Meanwhile, the data center positioning unit 500 is coupled between the floating station unit 100 and the data center unit 300, and for stable placement of the data center unit 300, the data center unit 300 is placed. It plays a role in controlling the position.

In the case of installing a data center on the sea, there is a problem that it is not easy to fix the data center, unlike when it is installed on land. For example, when an external force such as a typhoon occurs, the data center does not move significantly. As mentioned above, it is necessary to install it so that it can be maintained more stably.

Therefore, according to the present invention, when an external force such as a typhoon acts, the data center unit 300 is moved and placed in a deep water area, thereby moving the center of gravity to a lower level for stable placement of the marine green data center system. Control is possible.

In addition, since the flow of ocean currents and the speed of ocean currents change depending on the water depth as time changes, it can be maintained more stably by moving the data center unit 300 in consideration of the flow and speed of ocean currents that change from time to time. It can be placed in a convenient location.

Furthermore, by moving the data center unit 300 to a water depth where the optimal temperature is maintained for stable cooling of the data server 310 in consideration of temperature changes according to water depth, the data center can be cooled more efficiently.

In this way, according to this embodiment, the data center unit can be efficiently cooled by placing the data center unit underwater and providing a data server cooling module to cool the data server using seawater around the data center unit. .

In addition, by providing a self-generating power supply module and a battery module that can generate power on their own, it is possible to more stably supply the power needed inside the data center.

Furthermore, by providing a data center position adjustment unit that adjusts the position where the data center unit is placed, it is possible to minimize the movement of the data center installed underwater and arrange it to be maintained more stably.

As such, the present invention is not limited to the described embodiments, and it is obvious to those skilled in the art that various modifications and changes can be made without departing from the spirit and scope of the present invention. Accordingly, such modifications or variations should be considered to fall within the scope of the claims of the present invention.

100: floating station unit 110: station base
130: power supply module 150: battery module
170: Communication module 300: Data center unit
310: data server 330: data server cooling module
331: Cooling piping 333: Heat exchanger
335: Seawater piping for heat exchange 500: Data center position control unit

Claims (6)

floating station unit;
A data center unit having at least one data server therein and connected to a lower part of the floating station unit to cool the data server and placed in the water; and
A marine green data center system that is coupled between the floating station unit and the data center unit and includes a data center positioning unit that adjusts the position at which the data center unit is placed for stable placement of the data center unit. According to paragraph 1,
The data center unit is,
A marine green data center system including a data server cooling module for cooling the data server using surrounding seawater. According to paragraph 2,
The data server cooling module,
a cooling pipe through which a cooling liquid that absorbs heat emitted from the data server flows;
a heat exchanger to which the cooling pipe is connected and which exchanges heat between the cooling liquid and the seawater; and
A marine green data center system connected to the heat exchanger and including a seawater pipe for heat exchange through which the seawater flows. According to paragraph 1,
The floating station unit,
A power supply module provided on one side of the station base to supply power to the inside of the data center unit; and
A marine green data center system comprising a battery module that charges the power supplied by the power supply module and selectively supplies the charged power to the interior of the data center unit. According to clause 4,
The power supply module is,
A marine green data center system that is a self-generating power supply module that can generate power on its own using one or more powers selected from wind power, wave power, and solar power. According to clause 4,
The floating station unit,
A marine green data center system connected to the data server and further comprising a communication module that performs data communication between the data server and a demand source on the ground through a network.

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