LIAN LI GALAHAD AIO240 RGB White, Dual 120mm Addressable RGB Fans AIO CPU Liquid Cooler
REMOVABLE MAGNETIC ALUMINIUM CAP
Switching between two different looks to match the interior configuration.
CUSTOMIZABLE ADDRESSABLE RGB LIGHTING
Connect Lian Li GALAHAD 240 LED and FAN cables to Uni hub and use L- Connect to control. Only select the 1st LED Mode for water block to operate smooth lighting effects.
MACHINE DETAILED ALUMINIUM HOUSING
The CPU block pump features an aluminium housing to adorn your build with an exquisite metallic touch.
ROTATABLE BLOCK HOUSING
The CPU block rotated to ensure a properly aligned logo no matter what the orientation of the block is.
ALUMINIUM SHIELDS ON BOTH SIDES
The all-new GALAHAD series features a state-of-the-art triple-chamber pump design which combines the pump chamber, the connecting chamber, and the cold plate chamber into one unit to significantly reduce the friction produced by the coolant’s rapid flow. This design serves as a protection mechaism to prevent your system from leaks that damage CPU block pump.
TRIPLE-CHAMBER STRUCTURE
The all-new Lian Li GALAHAD 240 features a state-of-the-art triple-chamber pump design which combines the pump chamber, the connecting chamber, and the cold plate chamber into one unit to significantly reduce the friction produced by the coolant’s rapid flow. This design also serves as a protection mechaism to prevent your system from leaks should the CPU block pump be damaged.
MULTI-CHAMBER TECHNOLOGY (M.C.T)
The M.C.T. design separates the hot and cool liquid flow by conveying them into different, sealed water passages, significantly enhancing the heat exchange efficiency and extending the lifespan of the CPU block pump by preventing the hot liquid from flowing back.
HIGH-DENSITY ALUMINIUM RADIATOR
The radiator encompasses 14 rows of aluminium tubes, allowing a maximum amount of liquid to pass through and transfer the heat out of the system efficiently. And thanks to the high-density fin folds between the aluminium tubes, the surface area providing heat dissipation is significantly increased.