摘要:近几年来,随着电子设备组装精度越来越高,散热问题越来越突出。微通道换热器作为一门新兴的热控技术成为国内外学者的研究热点。论文针对微通道换热器的设计和分析问题,在热控制技术基础上研究微通道换热器结构。利用FLUENT软件制作该微通道换热器的三文数字传热模型,进行三文流场、温度场的分析。深入研究微通道实体模型获取、微通道中流体模型获取、有限元网格划分、网格单元长度设置、网格单元质量参数设定等技术问题。FLUENT软件可用于微流体的分析计算。通过对微通道散热器模拟,将数值数据结果与现实观点进行结合,得出了一些有实际应用参考价值的结论。10400
关键词:微通道;散热器;数值模拟;FLUENT软件;比较分析
The simulation study of high performance of micro-channel heat sink
Abstract: In recent years, with the electronic equipment assembly accuracy higher and higher, the heat dissipation problem is becoming more and more prominent. As an emerging thermal control technology, micro-channel heat sink is the study hot spot of academics at home and abroad. The essay for micro-channel heat sink's design and analysis, on the basis of heat control technology, study the structure of micro-channel heat transfer. Based on FLUENT software for the three-dimensional numerical heat transfer model of micro-channel heat sink, proceed to make the three dimensional flow field, temperature field analysis and simulation. In-depth study of micro-channel entity model acquisition, the fluid flow in the micro-channel model acquisition, finite element mesh, length setting, the mass of grid cell parameter setting and other technical problems. FLUENT software can be used in micro-fluidic analysis and calculation. Through the micro-channel heat sink simulation, numerical simulation results were compared with real opinion analysis, some conclusion has reference value for practical application.
Keywords: micro-channel;heat sink;numerical simulation;FLUENT software;compare analysis
目录
摘要 i
Abstract i
目录 ii
1 绪论 1
1.1 微通道散热器的背景及其意义 1
1.2 国内外研究发展与现状 2
1.2.1 微通道散热器的发展 2
1.2.2 微通道散热器目前存在的问题 2
1.2.3 微通道散热器目前的利用 4
1.3 课题研究内容 6
2 微通道散热器的简单结构 7
2.1 基本概述 7
2.2 微通道的结构 8
2.3 微通道的原理 8
2.3.1 散热器的散热计算公式[12] 8
2.3.2 微通道流动传热系数 9
2.3.3 对流换热 10
2.3.4 边界层 10
3 微通道散热器的数学模型 12
3.1 控制方程 12
3.2 边界条件 13
3.3 数值求解 13
3.4 FLUENT介绍 14
3.5 FLUENT操作过程 16
3.6 数值模拟产生的残差图 21
4 结果分析及讨论 24
4.1 圆形微通道内径的影响 24
4.1.1 整体与进出口温度分布图 24 FLUENT高性能微通道散热器的模拟研究:http://www.youerw.com/zidonghua/lunwen_9575.html