10 Ways to Keep Your PC Cool

Let us discuss about some simple ways to keep your computer from overheating. PC contains a lot of parts, almost all of which create heat when your computer is on. In a properly configured computer, much of this heat is moved out of the computer's case by several fans. If your computer isn't removing the hot air fast enough, the temperature can get so hot that you risk serious damage to your PC. Needless to say, keeping your PC cool should be a top priority. Below are the top eleven PC cooling solutions. Many are free or very inexpensive.

Allow for Air Flow

The easiest thing you can do to help keep your PC cool is to give it a little breathing room by removing any obstacles to air flow. Make sure there's nothing sitting right against any side of the computer, especially the back. Most of the hot air flows out of the back end of the computer case. There should be at least 2 to 3 inches open on either side and the back should be completely open and unobstructed. If your computer is hidden away inside a desk, make sure the door isn't closed all the time. Cool air enters from the front and sometimes from the sides of the case. If the door is closed all day, hot air tends to recycle inside the desk, getting hotter and hotter the longer the computer is running.

Clean Your Computer

The fans inside your computer are there to keep it cool. Do you know what slows a fan down and then eventually makes it stop? Dirt, in the form of dust, pet hair, etc. It all finds a way into your computer and much of it gets stuck in the several fans. One of the most effective ways to cool your PC is to clean the internal fans. There's a fan on top the CPU, one inside the power supply, and usually one or more on the front or back of the case. For cleaning the fans shut your computer off, open up the case, and use canned air to remove the dirt from each fan.

Move Your Computer

If the area you're running your computer in just too hot or too dirty, one option is to move the computer. A cooler and cleaner area of the same room might be fine, but you may have to consider moving the computer somewhere else entirely.

Note: Moving your computer can cause damage to the sensitive parts inside if you're not careful. Be sure to unplug everything, don't carry too much at once, and sit things down very carefully.

Upgrade the CPU Fan

Your CPU is probably the most sensitive and expensive part inside your computer. It also has the most potential to overheat. Large CPU fans that help keep CPU temperature lower than a factory installed fan ever could . 

Install a Case Fan

A case fan is just a small fan that attaches to either the front or the back of a computer case, from the inside. Case fans help move air through a computer. Installing two case fans, one to move cool air into the PC and another to move warm air out of the PC, is a great way to keep a computer cool. Case fans are even easier to install than CPU fans so don't be afraid to get inside your computer to tackle this project.

Stop Overclocking

Overclocking is the process of running a computer component at a higher clock rate (more clock cycles per second) than it was designed for or was specified by the manufacturer, usually practiced by enthusiasts seeking an increase in the performance of their computers. Overclocking pushes your computer's capabilities to its limits. These changes have a direct effect on the temperature that your CPU and any other overclocked components operate at. If you're overclocking your PC's hardware but haven't taken other precautions to keep that hardware cool, I definitely recommend reconfiguring your hardware to factory default settings. 

As liquid nitrogen boils at -196 C, far below the freezing point of water, it is valuable as an extreme coolant for short overclocking sessions.

Replace the Power Supply

The power supply in your PC has a large fan built into it. The air you feel when you hold your hand behind your computer is from this fan. If you don't have a case fan, the power supply fan is the only way that the hot air created inside your computer can be removed. Your computer can heat up quickly if this fan isn't working. Unfortunately, you can't just replace the power supply fan. If this fan is no longer working, you'll need to replace the entire power supply.

Install Component Specific Fans

CPU is probably the biggest heat producer in your computer but nearly every other component creates heat as well. Super fast memory and high end graphics cards can often give the CPU a run for its money. If you find that your memory, graphics card, or some other component is creating a lot of heat, you can cool them down with a component specific fan. In other words, if your memory is running hot, buy and install a memory fan. If your graphics card is overheating during game play, upgrade to a larger graphics card fan. With ever faster hardware comes ever hotter parts. Fan manufacturers know this and have created specialized fan solutions for nearly everything inside your computer.

Install a Water Cooling Kit

In very high end computers, heat buildup can become such a problem that even the fastest and most efficient fans can't cool the PC. In these cases, installing a water cooling kit can help. Water transfers heat well and can drastically reduce the temperature of a CPU. The water is completely enclosed inside the transfer system. A pump cycles cool water down to the CPU, where it can absorb the heat and then it pumps the hot water out of your computer where the heat can dissipate.

Install a Phase Change Unit

Phase change units are the most drastic of cooling technologies. It utilizes many of the same technologies to cool or even freeze a CPU. Phase-change cooling is an extremely effective way to cool the processor. A vapor compression phase-change cooler is a unit which usually sits underneath the PC, with a tube leading to the processor. Inside the unit is a compressor of the same type as in a window air conditioner. The compressor compresses a gas (or mixture of gases) which condenses it into a liquid. Then, the liquid is pumped up to the processor, where it passes through an expansion device; this can be from a simple capillary tube to a more elaborate thermal expansion valve. The liquid evaporates (changing phase), absorbing the heat from the processor as it draws extra energy from its environment to accommodate this change.