Friday, April 19, 2019
Computer Liquid Cooling Systems and CPU FANS Essay
Computer Liquid Cooling Systems and central processing unit FANS - shew ExampleHowever, for bigger equipment and setups the liquid chill technology is still used owing to the sheer book of account of heat that it can handle along with the scientific properties of water as heat conductor. The paper thence sheds light on the brief history and usage of this technique. This technique has its roots in 1982, but started gaining popularity in 2000. High performance and high power consuming systems be the ones that be mostly suited for this event of modify technology as they are the ones that generate voluminous heat. It is a common fallacy to conceptualize that only the CPU is cooled by such liquid systems- a wide range of components including the bridges, memory, hard book drive and others also benefit from these cooling systems. In the final course of this paper, the advantages along with the disadvantages of these systems are considered in the light of the more popular, air cool ing systems. This technology offers unique advantages in terms of higher strength to tolerate heat levels, ability to transmit heat from the source to another point over larger distances which makes high performance possible without overheating. The downside, however, is that these systems are costly, primarily due to the cost of installation and technical expertness of professionals that deal with this system. The paper finally concludes with recommendations pertaining to the use of these systems along with their likely application in future. Computer cooling is a process whereby heat that is produced as waste by various components of the figurer is removed or cooled down in order to maintain the working temperature confines of the computer (Morley & Parker, 2009). This is extremely essential for plastered components to function properly that may otherwise become permanently disabled owing to overheating. Components such as these include, but are not limited to, circuits such as hard disks, graphic cards and the CPU (Morley & Parker, 2009). The CPU is often equipped with a cooling fan on top to ensure the temperature remains regulated and the components do not become out of order due to overheating. Computer cooling systems are often designed in sync with robust design of computer components such that these components produce as little heat as possible. In such cases, the components are manufactured in a direction that they consume as little power as possible, because the greater the power they consume, the higher the heat levels generated. Heatsinks are often used for this purpose such that they do not contain a fan however, they direct a mechanism whereby cooling is done through control of airflow which reduced the heating impress or temperature boost owing to a certain increase in heating of components (Miller, Vandome, & McBrewster, 2009). By consistently controlling the flow of air the establishment of hotspots is averted. Computer fans, which are often used in sync with these heatsinks, provide the invaluable function of reducing the intensity of heat generated by various computer components (Morley & Parker, 2009). Another, quaint and uncommon technique is the use of liquid cooling mechanisms or water cooling to regulate the temperature of the computer in line with the normal operating standards (Zelkowitz, 2009). Water cooling has been traditionally employed in cooling of power plants and industrial machinery (Zelkowitz, 2009). Since water is a good conductor of heat, the heat from
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