Dear friends,
I've recendly bought a water cooling system, specifically MasterLiquid ML-120L RGB from Cooler Master. Now, here is my problem: i get a ratling/gargling noise when my "pump speed" is set between 900-1800 RPM. Once I change this option (from BIOS), and set it to maximum fan speed (2200 RPM), the noise goes away. I know that, "fan speed" when you're having water cooling, is how fast the liquid is going through your system, so from what I'm figuring out, having low speed makes this noise, while having maximum speed, eliminates it.
Also, I know that this might be air trapped inside my watercooling system, but after 2-3 days of 8 hours per day of using this system, shouldn't "fix" the air problem? Is there a logical explanation of, why the speed of the liquid inside the system, is affecting the "air" problem and eliminates the noise, while low speed keeps giving me the ratling noise?
Please, if theres anyone out there who had or still has the same issue, contact me in order to solve this frustrating problem.
Yours faithfully,
Alexander
I've recendly bought a water cooling system, specifically MasterLiquid ML-120L RGB from Cooler Master. Now, here is my problem: i get a ratling/gargling noise when my "pump speed" is set between 900-1800 RPM. Once I change this option (from BIOS), and set it to maximum fan speed (2200 RPM), the noise goes away. I know that, "fan speed" when you're having water cooling, is how fast the liquid is going through your system, so from what I'm figuring out, having low speed makes this noise, while having maximum speed, eliminates it.
Also, I know that this might be air trapped inside my watercooling system, but after 2-3 days of 8 hours per day of using this system, shouldn't "fix" the air problem? Is there a logical explanation of, why the speed of the liquid inside the system, is affecting the "air" problem and eliminates the noise, while low speed keeps giving me the ratling noise?
Please, if theres anyone out there who had or still has the same issue, contact me in order to solve this frustrating problem.
Yours faithfully,
Alexander