datacenter liquid cooling solution
-
That 10-15 (in my case) relies on no extra heat. When I have game nights it gets pretty toasty inside with 5 or so extra bodies in the shop.
My last experience with a server room was in 2002 or 2003, and the rooms were kept in the mid to low 60s.
no doubt.
I remember when you'd put a jacket on before you went in the halls... but now everyone wears shorts.
-
There’s basically no reason ever to do water cooling on a home system unless you’re trying to do overclocking.
Air is cheaper, more reliable, and typically quieter because you don’t need pumps.
Air also does not make things wet when it leaks.
-
a chiller is not a swamp cooler.
picture a fan with a wet sponge in front of it... that is a swamp cooler.
Yea, it's the combo of the chiller and cooling tower is analogous to a swamp cooler. The cooling tower provides the evaporative cooling. The difference is that rather than directly cooling the environment around the cooling tower, the chiller allows indirect cooling of the DC via heat exchange. And isolated chiller providing heat exchange is why humidity inside the DC isn't impacted by the evaporative cooling. And sure, humidity is different between hot and cold isles. That is just a function of temperature and relative humidity. But, no moisture is exchanged into the DC to cool the DC.
Edit: Turns out I'm a bit misinformed. Apparently in dry environments that can deal with the added moisture, DCs are built that indeed use simple direct evaporative cooling.
-
Hi,
I'm building a homelab watercooled unix server.
I don't want to buy expensive overpriced pre-mixes from ekwb or aquatuning.
What cooling solution do datacenters use for water cooling?What is the chemical solution? Does anyone know?
Water cooling is typically much more complex and expensive than air cooling, and is mainly attractive because of space limitations. The same applies to data centers. IBM's mainframes have a liquid cooled version mainly targeted towards users wishing to get the most out of their data center space before upgrading sites. These ship without coolant, and simply ask the user to "just add water," i.e. just demineralised/distilled water.
Sure Mainframe ain’t dead, but what about that toilet water? | Aussie Storage Blog - https://aussiestorageblog.wordpress.com/2021/04/07/sure-mainframe-aint-dead-but-what-about-that-toilet-water/
-
oh man! I just poked ptsf@lemmy.world for a Austria!=Australia flub in another thread... my come uppins!
The cooler is made of lava
Haha, carry on
-
Air also does not make things wet when it leaks.
Is rain a leak?
-
Is rain a leak?
The clouds are leaking.
-
The clouds are leaking.
Ah shit.
-
There’s basically no reason ever to do water cooling on a home system unless you’re trying to do overclocking.
Air is cheaper, more reliable, and typically quieter because you don’t need pumps.
And air doesn’t leak all over your electronics. Well it does but it doesn’t short anything out.
-
There’s basically no reason ever to do water cooling on a home system unless you’re trying to do overclocking.
Air is cheaper, more reliable, and typically quieter because you don’t need pumps.
A legit exception might occur with a strict energy-optimization objective, where the point would be transporting heat outside of an HVAC envelope as efficiently as possible. The cost of the additional thermal load is often ignored by hobbyists in their energy calculations but it can be significant. In the context of fixed-capacity solar, for example, it might be cheaper to pipe waste heat from a telco closet to a space that isn’t climate controlled, like a garage, than it would be to expand the solar installation for increased HVAC draw.