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CN-122013815-A - Offshore power calculation platform structure

CN122013815ACN 122013815 ACN122013815 ACN 122013815ACN-122013815-A

Abstract

The invention relates to the technical field of green calculation force and discloses an offshore calculation force platform structure. Compared with Microsoft Natick submarine data center project, the invention integrates the power unit module and the offshore fixed foundation. Through the integrated design and installation, the additional occupation of land resources is avoided, and the overall deployment cost of the computing center is effectively reduced. On the operation mechanism, the platform is directly powered by offshore green energy, so that the on-site consumption of offshore power is realized, and meanwhile, deep sea water is used as a stable cold source to conduct efficient heat dissipation, so that the energy consumption and long-term operation cost of a heat dissipation system are greatly reduced. In addition, the built-in operation and maintenance elevator is arranged in the fixed foundation, so that the high-efficiency and low-cost operation and maintenance of the power calculation system are ensured. The invention realizes the deep fusion of the power system and the offshore fixed foundation in structure and function, and provides a solution with high economy and high reliability for the construction of the power center.

Inventors

  • ZHAI HANBO
  • LI TINGTING
  • LIAN CHONG
  • ZHU WENLONG
  • QIN MING
  • CHEN CHUAN
  • YANG DINGHUA
  • YU GUANGMING
  • WANG CHEN
  • LIU ZHONGYUAN
  • Wang Diefan
  • DAI WEIDONG

Assignees

  • 中国长江三峡集团有限公司

Dates

Publication Date
20260512
Application Date
20260309

Claims (10)

  1. 1. An offshore computing platform structure, comprising: the fixed foundation (1) is fixedly arranged on the seabed and used for supporting the power generation module, and an accommodating space is formed in the fixed foundation (1); the force calculation unit module is arranged in the accommodating space; The cooling module (3) is thermally coupled with the power calculation unit module and is used for extracting seawater as a cold source to radiate the power calculation unit module; the power supply module is electrically connected with the power calculation unit module and is used for providing working electric energy for the power calculation unit module; and the data transmission module (5) is in communication connection with the power calculation unit module and is used for realizing data exchange between the power calculation unit module and an external network.
  2. 2. The offshore computing platform structure of claim 1, wherein, The outside of the power calculation unit module is provided with one or more sealed cabins (201), and inert gas (203) is filled in the sealed cabins (201).
  3. 3. The offshore computing power platform structure of claim 2, further comprising a vibration isolation module comprising: the vibration isolation base (701) is arranged on the bottom wall of the accommodating space, and the vibration isolation base (701) is arranged at the bottom of the sealed cabin (201); and the vibration isolation element is arranged between the vibration isolation base (701) and the sealed cabin (201).
  4. 4. An offshore computing power platform structure according to claim 3, characterized in that the vibration isolation element comprises a vibration isolation spring (702) and a damper (703) arranged in parallel.
  5. 5. The offshore computing power platform structure according to any of the claims 1-4, characterized in that the cooling module (3) comprises: an internal cooling circuit (301) in which a cooling liquid is circulated for absorbing heat generated by the power calculation unit module; an outer cooling circuit (302) which exchanges heat with the inner cooling circuit (301) through a heat exchanger (303); and the seawater inlet and outlet loop (304) is used for extracting external seawater to enter the external cooling loop (302) to take away heat and discharging the seawater subjected to heat exchange back to the sea.
  6. 6. The offshore computing power platform structure according to any of claims 2-4, characterized in that the stationary foundation (1) has a barrel section (101), the barrel section (101) comprising a plurality of circumferentially arranged outer portions Zhou Cangshi (103), any of the outer portions Zhou Cangshi (103) being used for mounting the computing power unit module.
  7. 7. The offshore computing power platform structure according to claim 6, wherein the barrel section (101) further comprises a central compartment (104), the central compartment (104) being centrally arranged between a plurality of the outer Zhou Cangshi (103).
  8. 8. The offshore computing power platform structure according to claim 7, further comprising an operation and maintenance module (6), the operation and maintenance module (6) comprising: An elevator (601) mounted to the central compartment (104), and the elevator (601) is vertically connected to the center of the structure above the water surface.
  9. 9. The offshore computing platform structure according to claim 6, wherein the sealed cabin (201) is provided with a sealed cabin door comprising an outer cabin door (110), an airlock (111) and an inner cabin door (112) arranged in sequence.
  10. 10. The offshore power platform structure according to any of claims 1-4, wherein the power supply module comprises a power supply unit (401) and an energy storage unit (402), the power supply unit (401) is used for supplying power to the power calculation unit module, and the energy storage unit (402) is used for peak clipping and valley filling and is used as a backup power supply of the power calculation unit module.

Description

Offshore power calculation platform structure Technical Field The invention relates to the technical field of green calculation force, in particular to an offshore calculation force platform structure. Background With the rapid development of new generation information technologies such as the Internet of things, big data, artificial intelligence and the like, the demands of society on data storage and computing processing capacity are exponentially increased, and the construction of computing infrastructure is promoted to enter a high-speed expansion stage. The computing force center is used as a core infrastructure for bearing computing, carrying and storing capacity, the layout and the operation efficiency of the computing force center are directly related to the development quality of digital economy, the electric power and heat dissipation cost of the existing land computing force center is high, and the offshore computing force center is in a just started state. In traditional solutions, microsoft natural seafloor data center projects are costly to deploy by sealing the data center to a sealed cabin and sinking into the seafloor by a special vessel. Secondly, if the data center has hardware faults, the whole module is salvaged out of the water surface for maintenance or upgrading. This results in a complex and costly deployment, maintenance or upgrade technique for subsea data centers. In addition, along with national offshore power generation electricity price subsidy backslide, power generation enterprises are gradually faced with the problem of offshore power consumption. Therefore, the high-efficiency low-cost power computing platform structure can be realized by solving the problem of direct consumption of offshore energy. Disclosure of Invention The invention provides an offshore computing platform structure, which aims to solve the problems of complex deployment, maintenance or upgrading technology and extremely high cost of the traditional computing center. The invention provides an offshore power computing platform structure which comprises a fixed foundation, a power computing unit module, a cooling module, a power supply module and a data transmission module. The power generation device comprises a fixed foundation, a power supply module, a power calculation unit module, a data transmission module and an external network, wherein the fixed foundation is fixedly arranged on a seabed and used for supporting a power generation module, a containing space is arranged in the fixed foundation, the power calculation unit module is arranged in the containing space, a cooling module is thermally coupled with the power calculation unit module and used for extracting seawater as a cold source to dissipate heat of the power calculation unit module, the power supply module is electrically connected with the power calculation unit module and used for providing working electric energy for the power calculation unit module, and the data transmission module is in communication connection with the power calculation unit module and used for realizing data exchange between the power calculation unit module and the external network. Compared with Microsoft Natick submarine data center project, the scheme integrates the computing unit module and the offshore fixed foundation, avoids extra occupation of land resources, and effectively reduces the overall deployment cost of the computing center. On the operation mechanism, the platform is directly powered by offshore green energy, so that the on-site consumption of offshore power is realized, and meanwhile, deep sea water is used as a stable cold source to conduct efficient heat dissipation, so that the energy consumption and long-term operation cost of a heat dissipation system are greatly reduced. In addition, the built-in operation and maintenance elevator is arranged in the fixed foundation, so that the high-efficiency and low-cost operation and maintenance of the computing power system are ensured, and the long-term operation cost of the computing power center is reduced. Namely, the deep fusion of the power calculation system and the ocean fixed foundation in structure and function can be realized, and a solution with high economy and high reliability is provided for the construction of a green power calculation center. In an alternative embodiment, one or more sealed compartments are provided on the outside of the power unit module, the interior of the sealed compartments being filled with an inert gas. The intelligent power unit module has the beneficial effects that the power unit module is placed in the sealed cabin filled with inert gas, and inert gas such as nitrogen, argon and the like with inert chemical properties is used for completely replacing air, so that contact of oxygen, water vapor and salt mist with electronic components is fundamentally isolated, and a nearly ideal and corrosion-free clean running environment is provided for precision equip