Page 1:Four More Closed-Loop Coolers Take On Big Air
Page 2:Cooler Master Nepton 280L
Page 3:Installing The Nepton 280L
Page 4:SilverStone Tundra TD02
Page 5:Installing The Tundra TD02
Page 6:Thermaltake Water3.0 Pro
Page 7:Installing The Water3.0 Pro
Page 8:Zalman Reserator3 Max
Page 9:Installing The Resorator3 Max
Page 10:Test Hardware Configuration
Page 11:Cooling Results And Fan Speed
Page 12:Noise Results And Acoustic Efficiency
Page 13:What Does It Take For A Closed-Loop Cooler To Beat Big Air?
Installing The Resorator3 Max
Separate brackets secure the Reserator3 Max to AMD or Intel processors. Though AMD’s sockets share a single mounting pattern, the Intel plate is drilled for different LGA 775, 1150/1155/1156, and 1366/2011 spacing.
The Reserator3 Max is designed to fit over a case’s original 120 mm exhaust fan, but the enclosure we're using to test came with a 140 mm unit. Zalman specifies that its cooler will work almost as well without the extra exhaust fan, and supplies shorter screws to mount its radiator directly to the exhaust vent.
We repositioned the case’s 140 mm fan as top-panel exhaust.
Be aware that, because the Resorator3’s fan has no frame and protrudes well past radiator brackets, stray wires (such as our voltage regulator thermal sensor) can very easily slip into “the spin zone”.
- Four More Closed-Loop Coolers Take On Big Air
- Cooler Master Nepton 280L
- Installing The Nepton 280L
- SilverStone Tundra TD02
- Installing The Tundra TD02
- Thermaltake Water3.0 Pro
- Installing The Water3.0 Pro
- Zalman Reserator3 Max
- Installing The Resorator3 Max
- Test Hardware Configuration
- Cooling Results And Fan Speed
- Noise Results And Acoustic Efficiency
- What Does It Take For A Closed-Loop Cooler To Beat Big Air?