In our previous blog, we went over the basics of Thermosiphons and how they work. While they’re all passive, two-phase systems that contain three basic parts (an evaporator, a fluid loop, and a condenser), the way that they’re constructed can be different...
Thermosiphons are an efficient and versatile two-phase cooling solution that have grown in popularity over the last few years. In the first of our three-part blog series, we’ll be going over exactly what a Thermosiphon is and the key features that make it...
As nearly every industry employs devices and electronics that require increased power, more efficient cooling for high heat loads in compact spaces has never been more important. Boyd has decades of experience providing CDUs (Coolant Distribution Units) to help...
Embedded systems are becoming more complex, processing and analyzing a growing number of sensors and signals. The result of this increased computing is often higher and more concentrated electronic heat loads. How to Design a Liquid Cooling System for High-Performance...
The performance of high-powered lasers depends on effective cooling. High-powered lasers generate a significant amount of heat that must be removed from the laser system to avoid overheating critical components. Optimizing a Laser by improving Liquid Cooling System...
Liquid cooling is an effective way to remove high heat loads from components. Excessive heat can compromise the reliability of a system and engineers are now turning to liquid cooling when air cooling no longer provides enough heat removal. Two types of liquid cooling...