The thermal cooling improvement method of a multi-threaded workstation computer paired with thermoelectric air cooler unit is studied experimentally. The monitored parameters mostly concentrate on top of the computer load conditions, by and without thermoelectric air cooler module, cooling fan turns on/off functions, as well as different cooling fan sizes. In the experiment process, the operational computer load of 0 to 100% is workload. The temperature allocation inside the computer chassis relies on the density, arrangement of the components in the computer together with active and passive components. It is found that the CPU Water Cooler has a significant effect on the air as well as the CPU temperatures of the processor computer.

Additionally, the operating modes, locations as well as sizes of the cooling fan have a major effect on air distribution within the computer chassis. Though, energy consumption is also amplified. The results of this study are likely to cause guidelines that will allow the design of the CPU Coolers by improved heat distribution performance of the electronic equipment. Current technical advances within graphics processing units have speeded up the increase of high-end GPUs as well as multiple GPUs into high-end gamer PC applications. Characterized by extremely lofty heat loads, this application results in increasing numbers of OEMs to examine alternative methods, such as Corsair Water Cooling to attain the level of thermal management wanted for radically higher system-power levels. Conventional GPU cooling methods, like those including a heat sink, heat pipe, and fan, provides decreasing thermal performance at 120W per chip. On the other hand, the forceful cooling requirements of gaming PCs and additional high heat-flux processor functions are proving to be productive ground intended for “non-traditional” approaches that propose at least 25% superior thermal performance, as epitomized by advanced liquid-cooling systems and in short known as LCS.

The general gamer PC platforms employ a dual-card configuration to hold up the operational extreme graphics computing. The power necessary by the GPU repeatedly exceeds that of the CPU itself, a tendency that processor roadmaps calculate will continue for the predictable future. One more technical subject impacting gamer PC operation along with user satisfaction is too much noise caused by the system’s many air-cooled fans attached to Cooling Fan Hub. Liquid-cooling systems offer the capability to move heat over superior distances compared to regular heat-pipe solutions. This entails heat to be moved to positions that lessen the number of necessary system fans or gives the use of larger and silent fans. Now obtainable on the market of trustworthy service-free LCS are capable of an extremely high level of cooling performance accordingly of the system fan being used more efficiently intended for cooling the CPU.