So with that in mind there is no reason to rush so check the list over several times while looking at your diagram to make sure. If starting out new and you want to build both loops at the same time then your going to have a big shopping list and with that many parts to order you will most likely forget something. Underneath the top of a desk can serve as a pump and radiator platform if needed. Space becomes a premium on the inside of a case when adding radiators, reservoirs, pumps and tubing and even the super towers can come up short on space when too much is added. When doing a multi-loop set up be prepared to have something mounted on the outside of the case or somewhere near the case outside of it. The Ram and the motherboard are not as important so they will be secondary places to cool on each loop. The two most important components will be the CPU and the Video cards so these will be split between the two loops and they will be the primary places to cool on each loop. In doing the same as the picture above and cooling the same components you want to draw up the loops on paper first and that way you will eventually have a blueprint to follow and this will eliminate any forgotten parts or direction. Do you have a side window and want every thing to look nice and neat? Do you have a color scheme that you want to keep the same. So you will have to decide what components will be cooled, what you plan to do for overclocking and how do you want it to look. There is different ways to do it but for this way we will treat it as two separate single loops. In this picture we see that the CPU, two video cards, two sets of Ram (one on each side of the CPU) and the motherboard chip set plus power regulator all cooled by two loops. This is custom and adding is never a problem it just takes planning. Also this doesn't have to be done all at once and you can build the system over time adding sections as you can. The solution would be to have multiple loops and while it will be expensive those that opt for custom water cooling are already willing to accept the cost. That would be fine provided you get a pump strong enough to push the liquid through all that and not burn out from the extreme work load.ĭon't forget each radiator and block provide some level of resistance to get the liquid through it and too many components providing too much resistance will over load the pump. Some will suggest to put two or even three radiators spacing them in between the different components.
When cooling your components by water cooling a single loop will only go so far and there will be components that won't get the same cooling power as those at the front of the loop.
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