1. The 1st law of water cooling is "never mix metals"... aka eliminate 99% of CLCs from consideration. The second law is "radiator fans always blow in.
Yes you have to let go of that day in 8th grade earth science when we were by chance paying attention when teacher taught us "hot air rises" ... while there is a gentle rise in an indisturbed environment, that axiom does not apply when the air in your case is doing a 100% changeover every 0.5 to 1.5 seconds. This is simple math:
Ambient Air: 23C
Inside Case Air: 28C
Coolant Temp: 33C
Fans move air thru the radiation and the rate of heat removal is proportional to Delta T; so what does the math tell us ?
33 - 23 = 10
33 - 28 = 5
So 23C air will remove 2 x as much heat from the loop as inside the case air. I just picked those numbers to make the math easy, but no matter what happens, inside case air will always be warmer than outside air. The automatic reaction to this statement well what about all the other stuff, why make the other components hotter ?
a) if you are concerned about this products, why don't they have water blocks on them ?
b) Which components are we concerned about ? I see nothing in MoBo (30 watts) , RAM (5 watts) , HD (10 watts) , whatever manuals about the dangers / performance impacts of 28C air .
If I'm wrong ... why the people who design, market, support and try to sell these products advise their customers to install fane]s this way ? Is it really feasible that they don't want to show their products in the best possible light ?
View attachment 144201
I'm not quite sure of your set up... is this correct
Top = (3) Radiator Fans Blowing Out
Side = (3) Radiator Fans Blowing Out
Front = (3) Fans Blowing In w/ Filters
Bottom = (3) Fans Blowing in W/ Filters
Rear = (1) Fan Blowing Out
Other things to understand :
a) The specs you see on the web site... say 80 cfm at 1.2 SP actually mean:
You will see 80 cfm a@ 0 SP
Yu will see 0 cfm at 1.2 SP
The realty is you will see about 38 - 42 cfm at about 0.6 SP
b) Radiator have a varying effect on air flow depending on the density of the fins. We 'll assume low - medium fpi rads with an insignificant reduction in air flow.
c) Filters have a very significant effect on air flow ... which can range up to 30% when "moderately clogged with dust. Lets say your anal about cleaning and use 80%
Let's call an unrestricted fan (rear) = 1 "Equivalent Fan" (EF)
Top = (3) Radiator Fans Blowing Out = 3 fans = 3.0 EF Out
Side = (3) Radiator Fans Blowing Out = 3 fans = 3.0 EF Out
Front = (3) Fans Blowing In w/ Filters = 3 fans x 80% = 2.4 EF In
Bottom = (3) Fans Blowing in w/ Filters 3 fans x 80% = 2.4 EF In
Rear = (1) Fan Blowing Out = 1 x 100% EF Out
Thats's the equivalent of 7.0 fans blowing out and 4.8 Fans blowing in ... leaving you with about 2.2 worth of fans coming in from unfiltered openings in your case. Looking at your box ... that would be that big wide open grille area adjacent to you GFX card as well as the vented slot covers. Is the PSU backside top or backside bottom mounted ? If it's bottom, you have your 850 watt PSU and 330 watt GFX card exhausting hot air out behind the case out and 90 % of the equivalent fan flow fans worth of negative pressure sucking it right back in.
If ya look at the case web site the diagram they advise appears he best option here:
Top = (3) Fans Blowing Out = 3 fans x 100% = 3.0 EF Out
Side = (3) Radiator Fans Blowing In w/ Filters = 3 fans x 80% = 2.4 EF In
Front = (3) Radiator Fans Blowing In w/ Filters = 3 fans 80% = 2.4 EF In
Bottom = (3) Fans Blowing in w/ Filters 3 fans x 80% = 24 EF In
Rear = (1) Fan Blowing Out = 1 x EF Out
That's the equivalent of 7.2 fans blowing in and 4.0 Fans blowing out ... leaving you with:
a) strong positive case pressure
b) no hot air and dust being sucked in thru the grille / slot covers and 2.8 EFs worth of air being pushed out
c) Add that 2nd rear fan if ya like.to make it 7.2 in and 5.0 out.
Remember that grille and slot covers are an important part of case air flow design ... you don't need to have a gan pushing out every cfm of air being pushed in...
a) Does your kitchen exhaust fan have a matching intake fan ?
b) Does your attic exhaust fan have a matching intake fan ?
c) Does the window you put in a bedroom at night during summer to circulate in cool night air and a matching fan in the other winwor ? ... Or does blowing air out 1 window ineveitable result in air being sucked in thru the other ?
d) Your engine compartment gas a fan (or 2) bringing air into the engine compartment ... is there another one somewhere to get it our ?
To my view the case manufactuere's diagram is the best option. The Kraken wont allow you to comply with the 1st rule of water cooling, but you can certainly comply with the second
