As someone who designs and builds networks as a profession, I don’t see this being a great idea. Maybe I just don’t have all the facts.
I am leaning heavily on the example of M$ trying an underwater datacenter, which they decommissioned and have not pursued further. Put a node of compute somewhere and eventually it will become obsolete or unusable due to hardware failure. Not to mention the energy requirements and cooling needed in space. Waste heat does not just dissipate unless it has a heat sink, which adds more volume and mass to the payload!
I can see the point of underwater datacenters though, for some very specific use cases. Compute heavy workloads with high energy densities could possibly make sense to ”free cool” below water. DLC everything and pump the heat straight into the ocean.
Turns out you can’t cool something just by putting it in space because most heat transfers require convection, which requires a medium, say, air… which is notably lacking in space.
Yeah, heat dissipation is surprisingly difficult in space, because the only real way to do it is via radiation. And radiation is one of the least effective methods of dissipating heat.
The vast majority of heat transfer on earth happens via physical contact, in the form of fluids or solids touching each other. That’s what a heat sink is for. It increases surface area, so more fluid (air) can touch it and carry heat away. But without some sort of fluid contact, a heat sink isn’t going to help much. It’ll act as a radiator, but the cooling efficiency will only be a fraction of what is achieved via traditional forced air cooling.
As someone who designs and builds networks as a profession, I don’t see this being a great idea. Maybe I just don’t have all the facts.
I am leaning heavily on the example of M$ trying an underwater datacenter, which they decommissioned and have not pursued further. Put a node of compute somewhere and eventually it will become obsolete or unusable due to hardware failure. Not to mention the energy requirements and cooling needed in space. Waste heat does not just dissipate unless it has a heat sink, which adds more volume and mass to the payload!
Space ain’t happening.
I can see the point of underwater datacenters though, for some very specific use cases. Compute heavy workloads with high energy densities could possibly make sense to ”free cool” below water. DLC everything and pump the heat straight into the ocean.
Turns out you can’t cool something just by putting it in space because most heat transfers require convection, which requires a medium, say, air… which is notably lacking in space.
Yeah, heat dissipation is surprisingly difficult in space, because the only real way to do it is via radiation. And radiation is one of the least effective methods of dissipating heat.
The vast majority of heat transfer on earth happens via physical contact, in the form of fluids or solids touching each other. That’s what a heat sink is for. It increases surface area, so more fluid (air) can touch it and carry heat away. But without some sort of fluid contact, a heat sink isn’t going to help much. It’ll act as a radiator, but the cooling efficiency will only be a fraction of what is achieved via traditional forced air cooling.