At first glance, passive cooling seems to be a more energy efficient option. But let's try to think about it more... I'll give an example:
I work in Adobe Premiere Pro. I have passive cooling set up in Windows. As a result, every operation in that application takes a little longer to complete. Lags (delays) add up, especially when you factor in video rendering.
Let's say that because of the passive cooling (or the wait associated with this form of cooling) it took me 100 minutes to make the video. In the case of active cooling, the same task took me 85 minutes. So the laptop ran for 15 minutes longer: it consumed electricity for 15 minutes longer.
So, is passive cooling really energy efficient? If my hypothesis is true, it seems that passive cooling is only relevant for tasks that are not demanding on resources: office work, light web browsing,...
Am I right?
thank you for answer
I work in Adobe Premiere Pro. I have passive cooling set up in Windows. As a result, every operation in that application takes a little longer to complete. Lags (delays) add up, especially when you factor in video rendering.
Let's say that because of the passive cooling (or the wait associated with this form of cooling) it took me 100 minutes to make the video. In the case of active cooling, the same task took me 85 minutes. So the laptop ran for 15 minutes longer: it consumed electricity for 15 minutes longer.
So, is passive cooling really energy efficient? If my hypothesis is true, it seems that passive cooling is only relevant for tasks that are not demanding on resources: office work, light web browsing,...
Am I right?
thank you for answer