Novel array arcs- fin heat sink 7×2 with 6×2 multi air jet impingement are presented in this paper by using numerical simulation. Temperature distribution of jets diameter of 5mm and arcs- fin heat sink with variety shapes at constant radius of 45mm are evaluated. Reynolds number ranges from 7000 – 11000. The study has been done at constant Z/d= 6 and constant heat flux =8333.33 W/m 2 . The best shapes of fins has an effective role in improving the rate of heat transfer .In this paper, the design concerned in arcs ships to construct fin geometry. Four concave arcs constricted the shape of fins heat sink for model A. This model has been changed to construct models (B-C-D-E) by reflect two concave arc from it to be convex arc. All five models at the same radius. The five configurations were comparative between each other and the best model comparative with flat plate heat sink. It is observed that model D of heat sink showed best temperature dissipation than the others. The results of this paper can help to select heat sink that meets a design's thermal, Power, packaging and cost requirements (specialized in arcs fins) with array of impingement jet, which is a popular used in cooling electronic devices.
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机译:通过使用数值模拟,本文提出了一种新颖的阵列弧形散热槽7×2,用6×2多气动喷射冲击。评估5mm和恒定形状的5mm和弧形散热器的喷射直径的温度分布,恒定半径为45mm。雷诺数范围从7000 - 11000。该研究已经在恒定的Z / D = 6处完成,恒定的热通量= 8333.33W / m 2。最佳形状的鳍片在提高传热速度方面具有有效的作用。本文的设计,有关弧形船舶构建翅片几何的设计。四个凹弧约定模型A的鳍片散热器的形状。该模型已经改变为构造模型(B-C-D-E),通过将两个凹入电弧从其反射到凸电弧。所有五个模型在相同的半径。五种配置在彼此之间比较和与平板散热器的最佳模型比较。观察到,散热器的模型D显示比其他散热器的最佳温度耗散。本文的结果可以帮助选择散热器,该散热器符合设计的热,电源,包装和成本要求(专门从事弧形翅片),其中撞击射流阵列,这是冷却电子设备中使用的流行。
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