WTK-CD Series Nano-Cooling Fluid Central Discharge System Advantages
Heat Dissipation Efficiency Advantages
Traditional central discharge systems mainly rely on the properties and flow of the cooling fluid to dissipate heat, resulting in relatively low heat dissipation efficiency.
The Nano-Cooling Fluid Central Discharge System utilizes the high thermal conductivity of nanoparticles, greatly enhancing heat transfer efficiency and effectively improving heat dissipation.
Traditional systems have slower thermal response, which may lead to localized overheating.
High-pressure microchannel multiphase flow nano-technology allows the nano-cooling fluid to precisely reach heat-generating areas, enabling rapid heat dissipation.
Coolant Performance Advantages
Traditional coolants may experience performance degradation or decomposition after long-term use or under high-temperature conditions.
Nano-cooling fluids, through special nano-technology, have enhanced stability, maintaining good performance and reducing the frequency of coolant replacement.
Some nano-cooling fluids can form a protective film on equipment surfaces, which, compared to traditional coolants, better prevents corrosion and extends equipment lifespan.
Improvements in stability and anti-corrosion performance reduce equipment maintenance costs and replacement frequency.
This enhances equipment reliability and lifespan, saving enterprises substantial costs.
Nanofluid Central Outflow Cooling System WTK-CD Series
Applicable scenarios of different models
The WTK-CD-20 model is suitable for small and medium power equipment, such as small electronic equipment, laser engraving machines, etc.
The WTK-CD-50 model is suitable for high-power equipment, such as large industrial machine tools, new energy vehicle battery packs, etc.
Nano-Cooling Fluid Central Discharge System Design Flow Diagram
The main functional components of the central effluent system of nano coolant are displayed
