A containerized generator set for use in computing centers

CN121966115BActive Publication Date: 2026-06-30HUAFENG POWER

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
HUAFENG POWER
Filing Date
2026-03-30
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Traditional containerized generator sets suffer from uneven heat dissipation and significant energy waste in computing centers, failing to meet the high-efficiency heat exchange and energy-saving requirements of high heat flux density scenarios, thus affecting equipment lifespan and system stability.

Method used

A containerized generator set is designed, which uses an arc-shaped shielding layer to form four continuous heat exchange chambers with built-in coolant. A cooling interlayer consisting of a spray module and a drying sponge is set inside the shielding layer. Combined with an inclined installation platform and a multi-chamber structure, heat can be transferred in layers and dissipated evenly.

Benefits of technology

It improves heat dissipation efficiency, reduces noise, lowers energy consumption, ensures stable equipment operation, and is suitable for high-efficiency heat exchange needs in compact spaces.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention relates to the field of power generation devices for computing centers, specifically a containerized generator set applied to computing centers. It includes a housing, with an installation platform located on the lower inner side of the housing. An arc-shaped shielding layer is connected to the upper part of the installation platform, forming four continuous heat exchange chambers between the shielding layer and the housing. Each heat exchange chamber is filled with coolant and is sequentially designated as a heat exchange chamber, an insulation chamber, a cooling chamber, and a storage chamber. A partition plate divides each heat exchange chamber into an outer heat exchange chamber and an inner heat exchange chamber. The outer heat exchange chamber is connected to the cooling system of the computing center, and the inner heat exchange chamber is located outside the shielding layer. By forming four continuous heat exchange chambers filled with coolant, a systematic stratified transfer and storage of heat is achieved.
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