HFE-7100平行微通道流动沸腾实验

微通道流动沸腾冷却技术兼具相变潜热和微尺度效应的诸多优点,是解决微电子器件热致失效问题的重要方法之一.HFE-7100是一种安全环保的电子氟化液,特别适用于微电子器件的冷却.本文在水力直径为0.5 mm的矩形平行微通道内,对HFE-7100的流动沸腾传热和两相流动特性进行了实验研究,测量范围为常压下质量流率88.9-277.8 kg·m^(-2)·s^(-1)、入口过冷度20.5-35.5℃和有效热流密度12-279 kW·m^(-2).本文分析了质量流率、入口过冷度、有效热流密度和干度对传热系数和压降的影响,发现在较低的入口过冷度下HFE-7100出现了沸腾迟滞现象,且增大入口过冷度和质量流率会延缓沸腾起始点的发生,且会提高传热系数和临界热流密度.两相压降受有效热流密度影响较大,且在定干度下不同质量流率的两相压降在塞状流和环状流阶段有明显差异.同时,通过观测两相流型,对流动沸腾传热现象进行了分析.本文还将两相压降实验数据与文献关联式预测值进行了对比,与Lockhart提出的关联式预测值偏差为19.6%.本文研究结果可为微电子器件散热设备的优化设计提供理论指导:以HFE-7100作为传热工质并将微通道流动沸腾冷却技术应用于微电子器件散热设备,可以提高设备的稳定性和可靠性;在不同热流密度的设备中通过控制入口过冷度和质量流率可有效地提升其散热性能;采用Lockhart提出的两相压降关联式可预测散热设备所需的泵功.

微纳复合表面HFE-7100/水的BRT现象及沸腾传热特性

HFE-7100/水作为非共沸不互溶工质可以拓宽核状沸腾传热的有效温区,目前关于其在微纳复合表面的沸腾传热特性和气泡运动机理尚不明晰。利用气泡模板电沉积法在铜基表面上制备了具有微纳孔洞的复合结构,测试了HFE-7100/水的沸腾传热特性,并通过可视化探究了沸腾工质转换(BRT)过程中两相工质在表面的润湿状态和气泡运动现象。结果表明,微纳复合表面上HFE-7100/水的BRT过程中,气泡先后经历小气泡聚并、气膜膨胀、轻工质接触壁面核化三个过程。在BRT过程中,HFE-7100与水对热壁面的润湿性存在竞争关系,随着过热度增加,薄的HFE-7100液层难以维持稳定的重工质沸腾,上层水工质可以穿过HFE-7100层对热壁面实现完全润湿,完成BRT过程。与单一工质相比,常压下HFE-7100/水混合工质体系可以在343~423 K下实现高效的核状沸腾传热。该研究揭示了HFE-7100/水在微纳复合表面的沸腾传热特性,为沸腾强化表面设计提供了思路。

Relative Stability of Boiling of FC-72 and HFE-7100 with Applications toElectronic Device Cooling

This paper investigates the relative stability between nucleate and film boiling modes of FC-72 and HFE-7100, which have potential to electronic device cooling applications. Equilibrium heat flux, qc, which refers to as an index for measuring the relative stability of boiling, was obtained at a liquid subcooling of 0-20 K. Experimental results reveal that (1) qc increases with liquid subcooling; (2) although the FC-72 exhibits a higher critical heat flux (CHF) than does the HFE-7100, somewhat unexpectedly, the equilibrium heat flux for the latter is greater than the former. Restated, at a prescribed heat flux, the risk to burnout for boiling of FC-72 is higher than that of HFE-7100. The shift in boiling curves interprets the experimental findings.

Boiling of HFE-7100 on a Straight Pin Fin

This paper deals with an experimental investigation of pin fin boiling of saturated and subcooled HFE-7100 under atmospheric pressure. Fin base temperature and heat flux data are measured along with the fin tip temperature. The basic features of boiling stability of HFE-7100 boiling on pin fin had been reported for the first time. For a given liquid/heating surface combination there exist upper steady-state (USS) branch and lower steady-state (LSS) branch, and a large, unstable regime located in between. Zones with different stability characteristics are mapped according to boiling on fins with different aspect ratios. Liquid subcooling can largely enhance heat transfer performance. A longer fin can provide a safer operation

喷雾冷却液膜流动特性测试方案优化及传热规律分析

喷雾冷却过程中,液滴-液膜-热壁面多子过程交互的强干扰体系造成液膜流动特征的捕捉非常困难,致使喷雾冷却高效换热机理还未得到本质澄清。开展了HFE-7000和HFE-7100喷雾液膜流动与传热研究,明确相机内置感光参数、快门和光圈组合、取样策略等耦合影响下的液膜流动特性测试与诊断方案,针对不同表面均取得了良好的测试效果。提出了基于标准液膜的ADD型误差分析方法,给出相关参数的偏差和随机误差,获得了不同热通量、压力和喷嘴高度下HFE-7100液膜分布和流动过程润湿面积、接触线长度等特征及规律,发现孤立液膜润湿面积随表面温度升高而降低,接触线则随温度呈现出降低或少数工况降低-升高的趋势,并探讨了液膜流动特征与传热规律的有机联系。

绿色环保清洗剂九氟丁基醚应用及生产工艺

介绍了ODS清洗剂替代品九氟丁基醚物理性质、环保性能、清洗能力以及材料兼容性能。九氟丁基醚作为CFCs及HCFCs类清洗剂的替代品,其清洗效能优于CFCs,是唯一具有四大环保与安全特质的CFCs替代品。对3M公司氢氟醚的生产工艺进行了简单的讨论,生产工艺难度大。