Our MicroChannel oil cooling solution demonstrates significantly improved heat exchange efficiency compared to traditional copper tube heat exchangers. With a more compact core structure, it achieves extreme heat dissipation within limited spaces, substantially reducing oil temperature and providing essential assurance for efficient and stable equipment operation.

○ Easy Installation：Inlet/outlet ports feature machined threaded connectors welded to manifold ends for convenient customer installation
○ Wide Applicability：Suitable for various conventional oil media and antifreeze-type coolants
○ Aesthetic & Durable： Black powder coating provides attractive appearance while enhancing corrosion resistance
○ High-Efficiency Alternative： Replaces plate-fin heat exchangers with lighter weight and better cost performance

This solution utilizes MicroChannel heat exchangers made of high thermal conductivity materials to significantly increase contact area, rapidly carrying away massive heat generated by core components such as the CT tube. Compared to traditional air cooling, it offers outstanding advantages including extremely high heat dissipation efficiency, more precise temperature control, and quieter, more stable operation. This effectively ensures continuous high-performance operation of CT equipment, extends service life, and represents the optimal cooling solution for enhancing equipment reliability and image quality.

○ High-Efficiency Heat Transfer：Single heat exchanger dissipation capacity of 6.7 kW, total unit dissipation capacity of 13.4 kW
○ High Compatibility：Supports various media including deionized water, water-glycol solutions, and silicone oil
○ Easy Installation：Symmetrical structure design with welded standard threaded connectors for simple installation
○ Stable & Durable：Customized sheet metal design ensures structural stability; all-aluminum core construction provides lightweight and economical solution

This solution incorporates a lightweight structure while maintaining low flow resistance and high reliability. It establishes an efficient heat exchange path directly along the heating area of the cable, rapidly removing high thermal loads through forced convection of coolant within the microchannels. This effectively addresses overheating issues in high-power cables, ensuring continuous and stable equipment operation.

○ High-Efficiency Heat Transfer：Dimensions 337×203×32 mm, heat transfer capacity up to 3 kW with excellent performance
○ Convenient Interface：Dedicated L-shaped threaded connectors solve customer pipeline layout challenges
○ Aesthetic Customization：Uses stainless steel sheet metal for refined appearance
○ Test-Verified Performance：Can meet cooling requirements for single cables with currents up to 500A