- Joined
- Jun 1, 2011
- Messages
- 4,587 (0.93/day)
- Location
- in a van down by the river
| Processor | faster at instructions than yours |
|---|---|
| Motherboard | more nurturing than yours |
| Cooling | frostier than yours |
| Memory | superior scheduling & haphazardly entry than yours |
| Video Card(s) | better rasterization than yours |
| Storage | more ample than yours |
| Display(s) | increased pixels than yours |
| Case | fancier than yours |
| Audio Device(s) | further audible than yours |
| Power Supply | additional amps x volts than yours |
| Mouse | without as much gnawing as yours |
| Keyboard | less clicky than yours |
| VR HMD | not as odd looking as yours |
| Software | extra mushier than yours |
| Benchmark Scores | up yours |
yeah, that's not surprising to me you don see it
but there are entire companies dedicated to passive cooled PCs in the medical & lab field. I underlined the medical & lab parts these companies use in their own words so that you can better "see"
The DNP group
from their own web site
Lastly, fans cool a computer by generating airflow. However, this movement of air is not ideal in all locations. For example, workplaces that need to be kept sterile, such as operating rooms or laboratories, need to minimize the airflow significantly. Otherwise, unwanted microbes and debris could circulate in the room. Again, fanless technology is advantageous because it does not generate an airflow.
Cybernet
Passive cooling is a robust solution for maintaining optimal operating temperatures in computing devices. In today’s tech-driven world, passive cooling plays a critical role in various industries, from medical facilities demanding constant cleanliness to industrial environments facing dust and grime.
Medical Usage
In medical settings, computers must run continuously, demanding frequent cleaning for disinfection while avoiding the circulation of dust particles. Passive or fanless cooling solutions fulfill these essential requirements.
These systems allow medical computers to operate without fans, reducing the risk of fan malfunction during extended operation. Moreover, the fanless design enables complete sealing of the unit, eliminating the need for vents to prevent overheating.
This feature is critical, ensuring that medical devices can be easily maintained without compromising their functionality.