Computer (Laptop) Cooling Basics
The problem is that over time dust and other particles clog the vents, fan and exhaust port or radiator of the system thus restricting air flow and cooling. This is fixed relatively easily by blowing out the vents and fan with air or using a brush or earbud to clean away the dust. Remember: In the computer world DUST DESTROYS! There is however another hidden problem that occurs when computers heat up or overheat. They tend to dry out the thermal compound that conducts the heat thus causing the system to overheat more quickly. Luckily most CPU, GPU and chip manufacturers have built in protection for this. They step down the operating speed bit by bit until they eventually switch off the CPU and thus the system shuts down. So if you have a computer system that starts working slower and slower and then switches off for no apparent reason, overheating could be your problem.
To solve the overheating problem, especially in laptops, I am going to show you how to get to the cooling unit, dust it out, replace the thermal grease and put everything together again. In order to demonstrate this I will be using a friend LG F1 Pro Express Dual laptop that started exhibiting just such symptoms. It would become sluggish and then suddenly switch off for no reason. This caused him a lot of lost work and a corrupted Outlook PST email file. Here I will show you step by step the solution to this nasty problem.
First Step
Rather than buying a replacement laptop, there are a few simple steps you can take in order to give it a second wind. The following guide will walk you through two methods for cleaning your laptop’s cooling system. One method is extremely simple and non-invasive, and the other is a complete cleaning, best suited for those with some computer hardware experience.
Second Step
- A Small Screwdriver for Opening the Back
- A Compressed Air Duster
- A Clean and Organised Workspace
- An Anti-Static Wrist Strap (optional but highly recommended)
Starting off with a basic cleaning only requires a few common tools. Just about any electronics store, such as Fry or Best Buy, will have all of these tools (minus the workspace of course).
Third Step
Believe it or not, this is one of the harder steps, simply because laptops come in all sorts of different models. Some are easy to get into, others have hidden screws and latches that could require specialised tools. In most cases, like with this Dell Inspiron, opening the back panel is relatively simple.
First you’ll want to shut down your laptop, unplug it, and remove the battery. If you’re using an anti-static wrist strap, now is the time to put it on and attach it to a ground. If your laptop looks as straight forward as this Dell, odds are it is, but keep in mind that opening it up should not require much prying at all. If it doesn’t seem to want to open, check again for other screws (sometimes located on the sides or even around the keyboard).
Some laptops may prove too difficult to get into. If this is the case, you can still make use of the canned air by blowing it into the various fan vents in attempts to clear out some of the gunk. This is generally sufficient as a temporary fix.
Fourth Step
Now that you have your laptop open, locating the heatsink should be fairly simple. Modern laptops make use of “heat piping,” copper tubes that channel heat to the heatsink. You should be able to follow these tubes (some laptops have more than one) from the CPU and GPU to the fins of the heatsink.
Using the canned air, blow steady controlled bursts into the heatsink and surrounding area. It’s OK to use your fingers to remove any larger chunks of lint that don’t come out with the air. If your laptop allows you access to the fan as well, you can use the canned air to clean it as well. For the fan though, you’ll want to use quick bursts of air. You don’t want to spin the fan too much or too fast.
If you’re uninterested in the more advanced cleaning directions, feel free to skip ahead to Step Eight.
Fifth Step
-A Small Screwdriver for Opening the Back
-A Compressed Air Duster
-Denatured Alcohol (or 100% pure Isopropyl)
-A Lint Free Cloth
-A Smooth Plastic Edge (e.g. an old credit card)
-A Small Tube of Thermal Paste (such as Arctic Silver 5)
-A Clean and Organised Workspace
-An Anti-Static Wrist Strap (optional but highly recommended)
The more advanced cleaning will involve removing the heatsink and reapplying new thermal paste. This will completely revamp your laptop’s cooling system, possibly even making it better than new (depending on the quality of thermal paste the manufacturer used).
Also, an important note: be sure to use either denatured alcohol (available at most hardware stores) or 100% pure Isopropyl. Non-pure isopropyl alcohols contain various minerals or water that can ruin your laptop components.
Sixth Step
Picking up from step two, it’s time to remove the heatsink from the CPU and GPU. In most cases, the CPU and GPU heatsinks will be connected via heat piping, so you’ll have to remove the screws on both before pulling it off.
When lifting off the heatsink, be sure not to bump the base (the portion that contacts the CPU and GPU) against anything. These surfaces are usually designed with microgrooves to help improve contacting surface area. Any nicks or scratches can reduce the cooling efficiency.
Some laptops will have the fan attached to the heatsink. For these configurations, you’ll generally have to disconnect a small power cable running from the fan to the motherboard. Make sure to note where the connectors are so that you can reattach it when you’re finished.
Seventh Step
Now that the heatsink is off, you’ll want to give it a good once over with the canned air. Try to get the fins as clear of obstructions as you can. Once it’s cleared of dust and lint, it’s time to clean off all of the old thermal paste.
This is where that plastic edge comes in. Using it, you’ll want to gently scrape off as much of the old thermal paste as possible. Once finished with the plastic edge, it’s time to make use of the denatured alcohol and lint free cloth.
Start by dampening the cloth slightly with the denatured alcohol. You want it damp enough to wipe the heatsink clean, but not wet enough to drip. It will take a bit of work, but you should ideally have virtually all traces of the previous thermal paste removed.
Once clean, make sure you don’t touch the contact surface of the heatsink. Even slight contaminates, like fingerprints, can greatly reduce the cooling performance of the heatsink.
Eighth Step
Just like the heatsink, the CPU and GPU need to be cleaned. This is accomplished in the same fashion as cleaning the heatsink, albeit slightly more delicately. Starting with the plastic edge, gently swipe away the old thermal paste. You’ll be relying mostly on the lint free cloth and alcohol for cleaning the CPU and GPU, so you only need to use the plastic edge to clean off the bulk of the old paste.
After scraping away most of the old paste, give it a quick burst of canned air to get rid of any scrapings left behind. Then, using the lint free cloth dampened slightly with the alcohol, gently wipe away the remaining thermal paste. Once clean, the tops of the chips should have a near mirror finish.
Ninth Step
Just about every different type of processing chip has a different method for applying thermal paste, but the methods for applying thermal paste onto laptop chips are fairly universal. Start with a single small dot of paste in the middle of the chip. Then, using the plastic edge (clean it off first) or the tip of the new thermal paste tube, spread it evenly over the rest of the chip. You’ll end up with a thin layer of thermal paste about the same thickness of a piece of paper.
Even though it’s tempting to cake on the thermal paste, it’s actually best to use as little as possible while still covering the whole chip. High-end thermal pastes are designed to work optimally when only thick enough to fill the various microgrooves on the face of the chip and heatsink while remaining just microns thick otherwise.
Tenth Step
Reattaching a heatsink is pretty straight forward; however, there are a few details to keep in mind. It’s best to carefully align the heatsink first, before seating it into place. This reduces the chances of smearing the thermal paste. If you bump or lift the heatsink back off of the chips after making contact, you’ll have to go through the thermal paste removal and application process all over again.
Once the heatsink is seated, give it a little wiggle laterally to help spread the thermal paste into all of the microgrooves. After that, it’s time to retighten the screws. Most laptops are designed so that the screws can only be tightened so far, but you’ll still want to be careful not to use too much pressure while tightening them. Be sure to tighten the screws in a crossing pattern, going over each screw several times to insure that they are all tight.
Eleventh Step
Now it’s time to close up the system. Give everything a good burst of canned air to get rid of any remaining dust and lint. Reattach any cables or connectors that you may have bumped or had to disconnect. Also make sure that all of the wires are tucked away so that they won’t be crimped when you attached the back plate again.
From here out, it’s pretty much just the reverse of opening it all up in the first place. Some systems will have you push the back plate straight down to have it snap into place, while others might require you to start with a corner and hinge it shut. If you’re not sure which way yours closes, just be gentle and try different orientations. As long as you don’t force it, you’ll get it in place eventually.
With everything put back into place, you’re ready to start using your laptop once again. You should see considerable improvements in cooling immediately, with continued improvements over the next several days as the thermal paste settles in.
Twelfth Step
Any time we’re using our laptops, they’re sucking in dust and lint, so it’s the least we can do to try and be conscious of how and when we’re using out laptops. For starters, you’ll probably notice that your laptop has vents on the bottom for pulling in air (about 95% of laptops do). If you use your laptop on your lap or some other cloth surface, it not only blocks these vents, reducing airflow, but it also introduces a lot more lint.
It’s also very helpful to turn your laptop off (or at least put it to sleep) when you aren’t using it. Just turning your laptop off at night can reduce the amount of dust it takes in by 33%, compared to leaving it on at all times.
Lastly, and it may seem cruel, pets are one of the leading causes of gunk buildup in laptops. Now, this doesn’t mean you have to get rid of your pets. Just try to keep them away from your laptop, and avoid using your laptop on or near places your pet sleeps.
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