Quote Originally Posted by NaeKuh View Post
ahhh your right im thinking of the normal pedistool.

Also the recirculating loop.. The amount of times the water passes though the blocks must equal the time it passes though the radiators. When you split it up like that, you'll get a temp gradiant working inside your res.

Basically its okey to have more flow in your radiator loop, but your other paralell loop should not have more flow, because then your shortening the water time spent @ radiator.

Does this make sense?
What you said makes sense but let me make sure it's in the context of what I intend to do:

Within Pedestal 24 (loop 1) = Reservoir > Pump > NB/SB & CPU > Rad (Monsta) 1 > Rad (Monsta) 2 > Reservoir

Now, I wasn't intending on having any other of the top loops parallel with the bottom setup. It's a closed loop so to speak. So, it seems that the the amount of time I'll have water passing over the radiators will be indeed longer than the time it spends going over the blocks, but none the less the flow would be consistent, as in, it's not like there's ever going to be a second of time the blocks don't have water passing over them. So to me it seems only advantageous to run a loop with as many radiators extra as one wants AS LONG of course as it doesn't impede a neccessary or desired flow rate over the blocks (i.e. gotta have a pump that can handle it). Now, I do see a "temp gradient" arising but it would be a downwards gradient would it not? As in, obviously the radiators being the mechanism in which the water is cooled, the temperature will decrease over the spread of time it takes to pass through both of them....

Are we speaking of the same/similar thing? Maybe I need to take a look at some of Martin's archive files... do you have any suggestions?
thx.