Assessment of the influence of the length and number of heat pipes on the efficiency of the removal of excess thermal energy from the processor

G. Piskun, V. Alexeev, O. V. Stepchenkov, A. N. Popov, A. N. Belikov, D. G. Rybakov
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Abstract

The results of a study of the influence of the length and number of heat pipes included in the radiator construction on the efficiency of removing excess thermal energy from modern processors are presented. Research was carried out for radiator constructions consisting of a heat sink, a heat pipe and a finned radiator installed on the processor and located in an open environment (air movement occurs without mixing, which is typical for free convection) or in a closed environment (air flows circulate in a closed loop, which is typical for natural convection in a limited space). Numerical modeling was carried out using the Flow Simulation module of the SolidWorks software package. It has been shown that the value of the temperature difference formed at the ends of heat pipes (hereinafter referred to as HP) significantly depends on the natural movement of air flows in an open or closed environment. It has been established that with an increase in the length of the HP from 100 mm to 500 mm, the temperature difference increases both in the case of air flow in an open environment and in a closed environment, in particular, the temperature difference increase at the ends of one HP with a diameter of 6 mm at power 50 W processor will be 29.54 °C (open environment) and 47.14 °C (closed environment); for three HPs – 9.13 °С (open environment) and 16.28 °С (closed environment); for five HPs – 5.24 °С (open environment) and 10.11 °С (closed environment). It has been established that an increase in the number of HPs with a diameter of 6 mm and a length of 500 mm from 1 pc. up to 5 pcs. leads to a decrease in temperature difference, in particular, with a processor power of 50 W, the temperature difference will be 36.17 °C (one HP in an open environment) and 55.59 °C (one HP in a closed environment); 11.04 °С (three HPs in an open environment) and 19.06 °С (three HPs in a closed environment); as well as 6.3 °С (five HPs in an open environment) and 11.56 °С (five HPs in a closed environment). The results obtained can be used to modernize the cooling systems of various technical devices based on processors, as well as to design new high-performance equipment taking into account the use of heat pipes.
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评估热管的长度和数量对处理器去除多余热能效率的影响
本文介绍了散热器结构中热管的长度和数量对现代处理器去除多余热能的效率影响的研究结果。研究针对的散热器结构包括安装在处理器上的散热片、热管和翅片散热器,并位于开放环境(空气运动不混合,这是典型的自由对流)或封闭环境(气流在封闭环路中循环,这是典型的有限空间自然对流)中。数值建模是使用 SolidWorks 软件包的流动模拟模块进行的。结果表明,热管(以下简称 HP)两端形成的温差值在很大程度上取决于气流在开放或封闭环境中的自然流动。已确定的是,随着热管长度从 100 毫米增加到 500 毫米,在开放环境和封闭环境中的气流情况下,温差都会增加,特别是在功率为 50 W 处理器的情况下,直径为 6 毫米的热管两端的温差增加值将分别为 29.54 °C(开放环境)和 47.14 °C(封闭环境);三个 HP - 9.13 °C(开放环境)和 16.28 °C(封闭环境);五个 HP - 5.24 °C(开放环境)和 10.11 °C(封闭环境)。已经证实,直径为 6 毫米、长度为 500 毫米的 HP 数量从 1 个增加到 5 个会导致温差减小,特别是在处理器功率为 50 瓦的情况下,温差将为 36.17 °C(开放环境中的一台 HP)和 55.59 °C(封闭环境中的一台 HP);11.04 °C(开放环境中的三台 HP)和 19.06 °C(封闭环境中的三台 HP);以及 6.3 °C(开放环境中的五台 HP)和 11.56 °C(封闭环境中的五台 HP)。所获得的结果可用于对基于处理器的各种技术设备的冷却系统进行现代化改造,也可用于设计考虑使用热管的新型高性能设备。
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