摘要随着电子技术的快速发展，电子器件的高频、高速以及集成电路的密集和小型化，使得电子器件的热流密度和发热量大幅度地增长，从而使得电子器件的散热问题变得很突出和重要。液体射流冲击冷却被认为是目前解决高热流密度电子元件散热问题的最有效方法之一，这种技术能够在局部产生很强的对流换热效果，但由于其换热机理复杂，理论上仍未完善和成熟。本论文提出了一种具有阵列射流冲击冷却结构的薄层冷板，通过对冷板的结构参数的设计优化，建立合理的模型。并利用Fluent进行仿真分析，通过对仿真结果的分析，验证薄层冷板的散热冷却效果，分析得出温度均匀性和流量均匀性的影响因素。20276
关键词   射流冲击   对流换热   冷却结构   薄层   冷板   

毕业论文设计说明书（论文）外文摘要
Title  The design and calculation of thin shaped flow jet  impingement cooling device                 
Abstract
With the rapid development of electronic technology, the heat and heat flux density of the the the electronic devices has been increasing dramatically as a result of the high-frequency and high-speed of electronic devices and the concentration and miniaturization of integrated circuit. Thus,the cooling of electronic devices has becoming very prominent and important. Liquid jet impingement cooling is one of the most effective ways to solve the problem of heat dissipation of electronic components with high heat flux, this technology can produce extremely high convective heat transfer coefficient in local space. However,because of its heat transfer mechanism is very complex, the theory has not been perfect and mature. This paper presented a design of a thin layer of cold plate with array jet impingement cooling structure,established reasonable model through optimizing the structure parameters of the cold plate. And used Fluent to do the simulation analysis,verified the cooling effect of thin layer cold plate and determined the uniformity factors of temperature and flow by doing analysis of the simulation results.
Keywords  jet impingement  convective heat transfer  cooling structure         
          thin layer    cold plate      
目  录
1  绪言    1
1.1  应用背景与研究意义    1
1.2  射流冲击的相关理论研究    1
1.2.1  单射流冲击理论    1
1.2.2  阵列射流冲击理论    3
1.2.3  喷射结构及影响因素    3
1.2.4  阵列冲击射流冷却的应用    4
1.3  本文主要工作    6
2  射流冲击冷板的冷却结构设计    7
2.1  引言    7
2.2  冷板的冷却结构的建立    7
2.3  薄层冷板的冷却结构参数设计    8
2.3.1  总体尺寸    8
2.3.2  喷射孔径的设计选择    8
2.3.3  喷射距离设计    12
2.3.4  冷板结构参数的优化    13
3  Fluent软件对冷板内射流冲击冷却的仿真分析    14
3.1  引言    14
3.2  射流冲击冷板的模型建立    14
3.2.1  冷板的实体模型    14
3.2.2  实体模型的仿真计算    15
3.3  冷板模型的仿真计算结果分析    15 Fluent薄层异型流动射流冲击冷却装置的设计计算:http://www.youerw.com/jixie/lunwen_11995.html