Product Introduction
The liquid cooling manifold (also known as a "manifold" or "flow distribution unit") is a core distribution component in data center liquid cooling systems. It is responsible for efficiently, evenly, and reliably distributing the coolant from the main pipeline (typically water or special dielectric liquid) to each server cabinet or liquid cooling plate, and collecting the return liquid to form a complete cycle. This product adopts a modular design and features high reliability, low flow resistance, intelligent monitoring, and easy maintenance. It is specifically designed for high-density computing scenarios such as artificial intelligence, high-performance computing, and cloud computing, significantly enhancing cooling efficiency and energy utilization efficiency (PUE).
1.2 Product Features
High-efficiency and uniform distribution: The internal flow channels are optimized through CFD design, ensuring that the flow deviation rate of each branch is less than ±5%, guaranteeing consistent cooling.
High-reliability structure: The main body is made of 316L stainless steel or corrosion-resistant alloy, with strong pressure-bearing capacity (maximum pressure-bearing capacity of 1.6 MPa), eliminating the risk of leakage.
Modularity and scalability: Supports standard tributary configurations of 8/12/16/24/48 channels, and can be flexibly assembled and expanded according to the number of cabinets.
Intelligent monitoring integration: Optional integration of flow sensors, temperature sensors, pressure sensors and electric control valves is available to achieve real-time monitoring and precise regulation of flow and temperature in each branch.
Low flow resistance design: The optimized internal structure minimizes the overall pressure drop of the system and reduces pump power consumption.
Convenient maintenance: Equipped with quick-change interfaces and drain valves, it supports online maintenance and branch isolation without affecting the overall operation of the system.
Visual management: Each branch is equipped with a clear flow indicator window and identification, making the operating status immediately apparent.
Product Introduction
The liquid cooling manifold (also known as a "manifold" or "flow distribution unit") is a core distribution component in data center liquid cooling systems. It is responsible for efficiently, evenly, and reliably distributing the coolant from the main pipeline (typically water or special dielectric liquid) to each server cabinet or liquid cooling plate, and collecting the return liquid to form a complete cycle. This product adopts a modular design and features high reliability, low flow resistance, intelligent monitoring, and easy maintenance. It is specifically designed for high-density computing scenarios such as artificial intelligence, high-performance computing, and cloud computing, significantly enhancing cooling efficiency and energy utilization efficiency (PUE).
1.2 Product Features
High-efficiency and uniform distribution: The internal flow channels are optimized through CFD design, ensuring that the flow deviation rate of each branch is less than ±5%, guaranteeing consistent cooling.
High-reliability structure: The main body is made of 316L stainless steel or corrosion-resistant alloy, with strong pressure-bearing capacity (maximum pressure-bearing capacity of 1.6 MPa), eliminating the risk of leakage.
Modularity and scalability: Supports standard tributary configurations of 8/12/16/24/48 channels, and can be flexibly assembled and expanded according to the number of cabinets.
Intelligent monitoring integration: Optional integration of flow sensors, temperature sensors, pressure sensors and electric control valves is available to achieve real-time monitoring and precise regulation of flow and temperature in each branch.
Low flow resistance design: The optimized internal structure minimizes the overall pressure drop of the system and reduces pump power consumption.
Convenient maintenance: Equipped with quick-change interfaces and drain valves, it supports online maintenance and branch isolation without affecting the overall operation of the system.
Visual management: Each branch is equipped with a clear flow indicator window and identification, making the operating status immediately apparent.
