So I have decided to revamp my approach since my older post.
A micro HVAC system should in theory work correct?
A coolant, undecided on what so far, would super cool air, which would then circulate though fins on a cpu cooler such as a stock AMD cooler (covered in a shroud to keep one flow) would then cool the fins, allowing them to take in more heat from the copper heat pipes.
Once heated this air, or rather fresh air would be sent through a compressor with coolant in it, supercooling the air, then put across the cpu again.
Firstly am I correct in assuming that super cooled air would allow for more heat to be dissipated?
Second if not, then would super cooling the fins of the cooler themselves work? (An endothermic reaction inside the cooler)
Third, If it would work, any predictions on how well? It would have to surpass air cooling, and possibly even water to be worth while to research.
If not, then I can fall back on endothermic.
The endothermic approach is reacting inside the cpu to cool the fins themselves.
A micro HVAC system should in theory work correct?
A coolant, undecided on what so far, would super cool air, which would then circulate though fins on a cpu cooler such as a stock AMD cooler (covered in a shroud to keep one flow) would then cool the fins, allowing them to take in more heat from the copper heat pipes.
Once heated this air, or rather fresh air would be sent through a compressor with coolant in it, supercooling the air, then put across the cpu again.
Firstly am I correct in assuming that super cooled air would allow for more heat to be dissipated?
Second if not, then would super cooling the fins of the cooler themselves work? (An endothermic reaction inside the cooler)
Third, If it would work, any predictions on how well? It would have to surpass air cooling, and possibly even water to be worth while to research.
If not, then I can fall back on endothermic.
The endothermic approach is reacting inside the cpu to cool the fins themselves.