A novel cylindrical oblique fin minichannel heat sink was proposed to cool cylindrical heat sources using forced convection scheme. In this paper, parametric numerical study was employed to understand the importance of the various dimensions of the oblique fin heat sinks and their heat transfer performance and pressure drop. Three dimensional conjugated heat transfer simulations were carried out using Computational Fluid Dynamics (CFD) method based on laminar flow to determine its performance in the oblique fin heat sink. 214 parametric studies were performed by varying the oblique angle from 20° to 45°, secondary channel gap from 1mm to 5mm and Reynolds number from 200 to 900. Their thermal performance was compared for a constant heat flux of 1 W/cm~2. The results show that the flow is main channel directed in shorter secondary channel structure while the flow becomes secondary channel directed in longer secondary channel structure. Secondary flow becomes more effective in heat transfer when increasing the secondary channel gap. When the oblique angle increases, more flow will be diverted into secondary channel and improve flow mixing to enhance the heat transfer. The best configuration in this paper was suggested based on the numerical data point. The overall performance can be improved up to 110% at Reynolds number of 900 compared with conventional straight fin minichannel. Therefore, this is the attractive candidate for future cylindrical heat sinks.
展开▼
机译:提出了一种新型的圆柱斜翅片微通道散热器,采用强制对流方式冷却圆柱热源。本文通过参数化数值研究来了解斜翅片散热器各个尺寸的重要性及其传热性能和压降。使用基于层流的计算流体动力学(CFD)方法进行了三维共轭传热模拟,以确定其在斜翅片散热器中的性能。通过将倾斜角从20°更改为45°,将辅助通道间隙从1mm更改为5mm,将雷诺数从200更改为900,进行了214项参数研究。在1 W / cm〜2的恒定热通量下,比较了它们的热性能。结果表明,流向是在较短的次要通道结构中引导的主通道,而流成为在较长的次要通道结构中定向的次要通道。当增加次级通道间隙时,次级流在传热方面变得更加有效。当倾斜角增加时,更多的流量将被转移到次要通道中,并改善流混合以增强热传递。根据数值数据点,提出了本文的最佳配置。与传统的直翅微型通道相比,雷诺数为900时,整体性能可以提高高达110%。因此,这是将来的圆柱形散热器的有吸引力的候选者。
展开▼
