R11/R134a混合工质管束外沸腾传热的EHD强化试验研究

采用EHD强化技术对R11/R134a混合工质进行管束外沸腾传热的试验研究,以试验所获得的大量数据为基础,分析了电场电压、热流密度与换热系数、强化系数之间的关系,并重点分析了不同工质组分对EHD强化效果的影响,为探索EHD强化沸腾换热的机理以及将其推广到工程应用提供了一定依据。     

BOILING HEAT TRANSFER OF WATER AND R-11 ON HORIZONTALLY SMOOTH AND ENHANCED TUBES ENCLOSED BY A CONCENTRIC OUTER TUBE WITH TWO HORIZONTAL SLOTS

An experimental investigation was carried out on the boiling heat transfer characteristics of water and R-11 on the outside of a horizontal heated tube in narrow spaces. Two kinds of heat transfer surfaces (roll-worked and smooth surfaces) were tested. The test section consisted of a narrow annular space formed by enclosing the heated tube in an isolated concentric outer tube with two horizontal slats on the top and bottom. The nucleate boiling heat transfer characteristics were investigated experimentally at atmospheric pressure. The experimental results indicated that a single roll-worked tube in bulk liquid showed better boiling heat transfer than a single smooth tube. In the narrow spaces, the boiling heat transfer coefficients for the smooth tube were considerably enhanced when the gap size was so selected as to take an optimum value. There was no clear optimum gap size for heat transfer enhancement for the roll-worked tube in the narrow spaces. Enhancement of boiling heat transfer in the narrow spaces for the roll-worked tube was not clearly observed in this experiment. Finally, the critical heat flux (CHF) for boiling heat transfer in narrow spaces can be predicted by using a proposed CHF correlation.     

R134a管外强化沸腾实验数据处理新方法

在水平管外沸腾换热实验中,热流密度沿管长方向的变化幅度较大,采用Wilson方法所得到的管内对流换热系数偏高,而管外沸腾换热系数偏低.为解决这一问题,本文提出了一种新的数据处理方法-局部换热系数法,并采用这种方法对实验测定R134a在水平放置的机械加工强化表面沸腾传热管的实验数据进行分析和处理,得到了较合理的结果.     

管外流诱导管束振动强化传热试验研究

本文提出了利用管外流体诱导振动实现强化传热的新方法.采用了一种新的传热元件-弹性管束,它对管外流体流动具有良好的振动响应特性.提出了正置三角柱脉动流发生装置,该装置可诱导起弹性管束一定频率的周期性振动,并对强化传热具有显著的促进作用.在恒热流条件下,对管外水流诱导振动强化对流换热规律进行了试验研究,得到了管外对流换热的准则方程式.     

BOILING HEAT TRANSFER MECHANISMS IN A HORIZONTAL TUBE BUNDLE

The effect of thermal environment on boiling heat transfer performance in a section of a horizontal tube bundle was investigated using R-113 as the working fluid. The in-line tube bundle has five columns and 27 rows with a pitch-to-diameter ratio of 1.3. Heal transfer coefficients obtained from the instrumented tube in the tube bundle with only one tube heated while the other tubes remained unhealed and with all the lubes in the bundle heated are reported for a range of heat flux, pressure, mass flow rate, and quality. The results showed that heat transfer coefficient of a tube in a heated bundle is slightly higher than that in an unhealed bundle, with the variation of heat transfer coefficient decreasing as heat flux, mass flow rate, or pressure increased. It was also found that higher quality would tend to improve the heat transfer. However, the effect of quality disappeared as heat flux, mass flow rate, and pressure increased. Based on the experimental data, the mechanism of the heat transfer augment due to thermal environment was analyzed. It was proposed that fluid agitation and thin liquid film formation are two main factors for a heated bundle to have better transfer performance than an unhealed bundle,     

新型制冷机冷凝器壳侧的传热强化研究

针对现行制冷机冷凝器的不足 ,设计了适用于冷凝传热的新型折流杆冷凝器的壳程内部结构 ,并分析了其传热强化机理。在重力控制条件下 ,对不同内部支承结构与管束组合的冷凝器进行了传热实验研究 ,得到了水蒸汽在冷凝器壳侧的冷凝传热特性曲线。采用冷凝传热强化因子的概念 ,建立了预测该种折流杆冷凝器壳侧冷凝传热膜系数的计算公式 ,为折流杆冷疑器在制冷系统中的设计应用提供了理论依据。     

Flow boiling characteristics of refrigerant mixture R-22/R-114 in the annulus of enhanced surface tubing

This paper presents an experimental study of flow boiling heat transfer characteristics of refrigerant mixture R-22/R-114 in the annuli of a horizontal enhanced surface tubing evaporator. The geometric parameters of the test section are: inner tube bore diameter of 17.5 mm, envelope diameter of 28.6 mm and outer smooth tube of 32.3 mm I.D. The ranges of heat flux and mass velocity covered in the tests were 5–25 kW m⁻² and 180–290 kg m²⁻s⁻¹ respectively, at a pressure of 570 kPa. The enhanced surface tubing data showed a significant enhancement of the heat transfer compared to an equivalent smooth tube depending on the mixture's components and their concentrations. Correlations were proposed to predict the heat transfer characteristics such as average heat transfer coefficients as well as pressure drops of R-22/R-114 non-azeotropic refrigerant mixture flow boiling inside enhanced surface tubing. In addition, it was found that the refrigerant mixture's pressure drop is a weak function of the mixture's composition.     

EHD强化水平管外沸腾传热的试验研究

本研究对水平管外沸腾换热的ＥＨＤ强化进行了试验,得出了沸腾换热系数与外加电场的电压、管壁热流密度等相关参数的关系,并对试验现象和外加电场的功耗进行了分析,为探索ＥＨＤ强化沸腾传热的机理和理论以及它的工程应用提供了一定的依据．     

具有微槽的圆管流动沸腾实验研究

1引言行化行业大量的立、卧式重沸器等中都涉及沸腾相变传热。超大规模集成电路的正常工作需要具有10’W／m’量级甚至更高的散热能力山，航天热环境控制也同样要求在小温差下具有极高的散热强度问。对于这些高热流、低温差传热问题，往往也采用沸腾相变的方法解决。沸腾强化技术研究有很长历史，已发展出许多有效的方法，Thome问对过去数十年的工作做了系统的综述。具有烧结多孔表面薄展的HIGHFLUX管则，机加工扩展表面的THERMOEXEC－E管问，西德研制的GEWA－T管问，虽然在强化池沸腾时具有优异性能，很少用于强化流动沸腾。在…     

浸没在多孔介质中的竖直管沸腾换热实验研究

本文对竖直管外填充固体颗粒情况下，蒸馏水和无水乙醇两种工质的池沸腾换热现象进行了实验研究，分析了颗粒直径以及工质热物性对竖直管液池沸腾换热特性，包括沸腾滞后的影响规律，证明了在填充固体颗粒条件下，竖直管的池沸腾换热可以得到一定程度的强化，在低热负荷区，强化效果尤为明显。大颗粒对沸腾滞后现象有较好的缓解作用。在高热负荷区，由于气膜的出现，沸腾机理将有所改变。     

R134a在水平三维内微肋管内的沸腾换热

本文以 Ｒ１３４ａ为工质,在外径为 １６ ｍｍ的两种不同几何结构的水平三维微肋管内进行了沸腾换热实验,研究了质量流率、热流密度、蒸汽干度等因素对沸腾换热系数的影响。与相同工况下的水平光管比较, １＃微肋管的换热强化因子在１．５～２．１之间,２＃微肋管的换热强化因子在１．９～２．８之间。两种三维微肋管的比较结果显示,单位内表面积上具有更多的微肋数目的 ２＃管的平均沸腾换热系数比 １＃管增加了 ２８～４３％。     

Experimental investigation of flow boiling heat transfer enhancement under ultrasound fields in a minichannel heat sink

Ultrasound is considered to be an effective active heat transfer enhancement method, which is widely used in various fields. But there is no clear understanding of flow boiling heat transfer characteristics in micro/mini-channels under ultrasonic field since the studies related are limited up to now. In this paper, a novel minichannel heat exchanger with two ultrasonic transducers inside the inlet and outlet plenum respectively is designed to experimentally investigate the impacts of ultrasound on flow boiling heat transfer enhancement in a minichannel heat sink. Flow visualization analyses reveal that ultrasound can promote rapid bubble motion, bubble detachment from heating wall surface and thereby new bubble generation, and decrease the length of confined bubble. Furthermore, the flow boiling experiments are initiated employing working fluid R141b at different ultrasonic parameters (e.g., frequency, power, angle of radiation) and heat flux under three types of ultrasound excitations: no ultrasound (NU), single inlet ultrasound (IU), inlet and outlet ultrasound (IOU). The results indicate that ultrasound has obvious augmentation effects on flow boiling heat transfer even though the intensification effects will be limited with the heat flux increases. The higher ultrasonic power, the lower ultrasonic frequency and the higher ultrasonic radiation angle, the better intensification efficiency. The maximum enhancement ratio of h_ave in the saturated boiling section reaches 1.88 at 50 W, 23 kHz and 45° under the experimental conditions. This study will be beneficial for future applications of ultrasound on flow boiling heat transfer in micro/mini-channels.     

水平和竖直细圆管内流动凝结换热特性的对比研究

本文采用基于相平衡理论的最小能量原理,根据当地气液两相流动条件确定气液界面形状,以此为基础,从理论上探讨水平细圆管内流动凝结的特点。通过与竖直条件下管内凝结换热特性的对比,分析重力、气液界面剪切力、表面张力对流动凝结的影响。研究发现,细圆管由竖直变为水平放置时,管径的减小同样导致重力的影响削弱,并且凝结换热得到进一步强化;但由于流型的变化,随管径的减小强化的程度减弱。     

蒸气在倾斜细小直径圆管内的流动凝结换热特性

细小管内的流动凝结换热具有许多超常换热特性,经典的Ｎｕｓｓｅｌｔ分析方法已不能满足需要。在以往研究的基础上,本文进一步通过实验探析换热温差和蒸气流量对不同直径的细小管内流动凝结换热的影响。研究表明,管径越小,换热温差对凝结换热系数的影响程度越低;通过流量和倾角对凝结换热数的影响,分析了重力引发的流动分层和剪切力对凝结液的排除两种因素对细管传热强化的作用机制。本文的实验结果和用于常规尺度下的通用关联式对比表明,采用细管,管内的流动凝结换热得到无可置疑的强化     

FC-72在竖直壁面上及微小三角型通道内的沸腾传热

本文对浸在FC-72液池中的竖直壁面及两个微小三角形通道进行了沸腾实验研究,考虑了管道尺寸对沸腾传热特性的影响。两个微小三角形通道的边长分别为1.5和2.5 mm,水力直径分别为0.87和1.44 mm,长度50 mm,采用铜块上开V型沟槽,再覆盖上透明的玻璃片构成。热流密度由贴在铜块背后的膜状加热器提供。实验得到了沸腾曲线和传热系数,并用DV摄影机拍摄到了沸腾状况。实验结果显示,管道尺寸对沸腾传热特性有显著的影响,CHF值随通道尺寸的减小而减小,小通道在低热流密度时传热系数较大。     

三维微肋螺旋管内流动沸腾流型与传热性能

采用三维微肋螺旋管进行了制冷剂R134a在管内的流动沸腾传热与流型可视化实验。随着流量和干度的变化,流型可划分为泡状流、塞状流、分层波状流、间歇流以及环状流。在Taitel-Dukler流型图上给出了流型的分区及其转变曲线,讨论了螺旋管内两相流动流型转变的特性。传热实验揭示了质量流量、热流密度及蒸汽干度对传热性能的影响,三维微肋螺旋管的强化因子为1.5-2.1。     

EHD效应强化管内油的强制对流换热实验

本文以高粘性流体为实验工质,对水平光滑管内油的层流流动换热进行了直流高压电场强化（ＥＨＤ效应）实验研究。以实验方法调查了其换热系数强化率与外加电场强度、热流密度及流动速度,油温等因素的相关性。实验证实了外加直流高压电场能对管内层流强制对流换热起着很好的强化作用。验证了高粘性流体在ＥＨＤ效应下,综合换热性能同样有大幅度增加。     

流态化固体颗粒对对流沸腾传热的强化

在对流沸腾系统中引入固体颗粒,固体颗粒在液体中呈流态化,从而形成气液固三相对流沸腾过程。对气液固三相流对流沸腾过程的传热特性进行了实验研究,结果表明流态化固体颗粒对液体的对流沸腾传热具有显著的强化作用。基于固体颗粒撞击沸腾气泡时的受力分析,获得了固体颗粒穿透气泡并使气泡破碎的条件,分析了流态化固体颗粒强化沸腾传热的机理。实验结果与理论分析符合良好。     

流体诱导振动复合强化传热的理论分析

本文提出了流体诱导振动复合强化传热新方法并进行了理论分析，尽管人们一直将流体诱导振动看作是一种事故而加以预防，但流体诱导振动有效利用的空间依然很大。流体诱导的弹性管束面内和面外振动，在提高对流换热系数的同时降低污垢热阻，使传热效果显著增强。     

弹性管束汽－水换热器强化传热试验研究

本文设计了一种新的传热元件－弹性管束,它对管内外流体流动具有良好的振动响应特性。利用传热表面振动提高管外对流换热系数的同时,利用振动变形减少积垢,降低污垢热阻,实现了复合强化传热。在汽水换热条件下,对流作诱导振动强化传热规律进行了试验研究,得到了管外对流换热的准则方程式。