What Is A CPU Cooler?
A CPU cooler is a device used to cool down your computer’s processor(s) which are responsible for processing instructions and executing them. They are usually made from copper or aluminum with fins and blades. Some models have fans built into them. Most CPUs run at temperatures between 50°C (122°F) and 60°C (140°F). These temperatures are not ideal for most components such as RAM, hard drives, graphics cards, etc. To keep these parts running at their optimal performance it is necessary to reduce the temperature of the CPU.
There are two main ways to do this: either by adding heat sinks or by removing heat from inside the system through air cooling. Heat sinks are devices that transfer heat away from the CPU.
Air cooling involves using a fan to move air around the CPU and other components. Both methods will work but they both have pros and cons.
Pros Of Using A Fan For Air Cooling
The biggest advantage of using a fan for air cooling is that it allows you to remove heat from within your PC without having to replace any hardware. Most computers come with at least one or two 120mm fans.
By adding a fan it is possible to get rid of the heat that has built up from long hours of usage without having to spend money on adding extra parts.
It is also possible to improve on air cooling by drilling holes in your case and using thermal paste. The problem with this method is that it requires some technical knowledge and experience.
If you are not careful then it is very easy to damage your computer.
Another problem with this method is that your computer will start to make a lot of noise because the fan will be working at full blast all the time. It can also be quite annoying especially if you are using it in a quiet environment such as a library.
Pros Of Using Heat Sinks For Air Cooling
The main advantage of using heat sinks for air cooling is that they can be used to absorb a large amount of heat before they reach their temperature limit. This means that they do not have to work as often and can last a lot longer.
The other advantage of using heat sinks is that they are very quiet because the fan can be turned off most of the time. As a result you can use your PC in a quiet environment without being disturbed by the noise.
They are also a lot easier to install and can be used with a wide range of processors which do not always have a heatsink attached to them by default.
Air cooling is an excellent way to keep your PC’s temperature low but it does have some minor limitations. If you are looking for a more permanent solution that will give you piece of mind, then it might be worth looking into water cooling.
What Is A Water Cooler?
A water cooler is a device that is used to cool your computer’s processor through the use of water. These systems contain a small computer which can be connected directly to your CPU, a pump, tubing and a radiator. As the pump circulates the water through the system it takes away the heat and releases it into the radiator. The radiator contains fins which increase the surface area and allows the heat to dissipate into the air.
As it costs a lot to set up the system and requires a constant supply of water, these systems are only found in specialist organizations such as large companies or scientific research institutions. However, if you do have easy access to one of these systems then it is definitely worth looking into because they are proven to be the most efficient cooling solution for computers.
Should I Get A Water Cooler?
If you have the money and the opportunity to get a water cooler system for your computer then you should definitely look into it because they are proven to give the best performance. These systems are most commonly found in large companies or scientific research institutions because they can be expensive to set up. However, if you do have the money and want to get the best cooling system possible for your computer then this is definitely something worth looking into.
Sources & references used in this article:
… of a novel liquid block working with a nanofluid containing graphene nanoplatelets decorated with silver nanoparticles compared with conventional CPU coolers by M Bahiraei, S Heshmatian – Applied Thermal Engineering, 2017 – Elsevier
Experimental study on thermo-hydraulic performances of CPU cooled by nanofluids by C Qi, J Hu, M Liu, L Guo, Z Rao – Energy Conversion and Management, 2017 – Elsevier
Experimental investigation on the performance of CPU coolers: effect of heat pipe inclination angle and the use of nanofluids by T Yousefi, SA Mousavi, B Farahbakhsh… – Microelectronics …, 2013 – Elsevier
A universal performance chart for CPU cooling devices by KC Ng, CR Yap, MA Chan – Heat transfer engineering, 2008 – Taylor & Francis