Liquid Cooling Systems






Maximize Efficiency with Pumpless Liquid Cooling Systems
- The pump located on radiator reduces the impact of vibration on the CPU.
- Placing the pump at the cold end can make the pump run at a lower temperature more conducive to the normal operation of the pump and extend the life of the pump.
- NLP (Non-Leaking Point) Tech: Few manual assembled and mature brazing process guarantees zero leakage.
- Liquid cooling solution for compact server case.
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Maximize Efficiency with Pumpless Liquid Cooling Systems Description
1.
Thermosiphon Technology:
• Passive Heat Exchange: Utilizes natural convection to circulate coolant without the need for a mechanical pump
• Dual-Phase Cooling: Employs a two-phase thermosiphon process where the coolant evaporates and condenses to transfer heat efficiently
2.
Silent Operation:
• No Moving Parts: The absence of a pump eliminates noise, making the system virtually silent except for the fans
• Low Vibration: With fewer moving components, there is minimal vibration, contributing to a quieter environment
3.
Efficient Heat Dissipation:
• High-Performance Radiators: Equipped with radiators that effectively dissipate heat from the coolant, ensuring optimal cooling performance
• Optimized Fan Design: Fans are designed to maximize airflow while minimizing noise, enhancing the overall cooling efficiency
4.
Reliability and Longevity:
• Reduced Mechanical Failure: Fewer moving parts mean less wear and tear, leading to increased reliability and a longer lifespan for the cooling system
• Leak-Proof Design: Advanced sealing techniques prevent coolant leakage, ensuring safe and reliable operation
Maximize Efficiency with Pumpless Liquid Cooling Systems Data Sheet
Pump | Model | A4 |
Voltage | 12V | |
Speed | 4000RPM | |
Radiator | Dimensions | 456x120x27mm |
Material | Aluminum | |
Tube | Dimensions | Φ13x310mm |
Material | EPDM |
Maximize Efficiency with Pumpless Liquid Cooling Systems Applications
1.
Data Centers:
• High-Density Server Racks: Ideal for cooling high-density server racks, ensuring optimal performance and energy efficiency
• Hyperscale Data Centers: Used in large-scale data centers to manage the heat generated by thousands of servers
2.
High-Performance Computing (HPC):
• Supercomputers: Essential for cooling supercomputers that perform complex calculations and simulations
• Research Institutions: Used in academic and research institutions for scientific computing and data analysis
3.
Enterprise Servers:
• Mission-Critical Applications: Ensures reliable cooling for enterprise servers running mission-critical applications, reducing the risk of downtime
• Financial Services: Used in financial institutions to maintain the performance of servers handling large volumes of transactions
4.
Telecommunications:
• Network Operations Centers (NOCs): Helps in cooling servers and networking equipment in NOCs, ensuring uninterrupted communication services
• 5G Infrastructure: Supports the cooling needs of servers and equipment used in 5G networks
5.
Industrial Applications:
• Manufacturing: Used in industrial environments to cool servers and control systems in manufacturing processes
• Energy Sector: Helps in cooling servers used in energy management and smart grid applications