湿法脱硫岛内气液两相流流动规律的研究

采用直接观察法、床层膨胀法和概率密度函数(PDF)法对湿法烟气脱硫塔内流型的形成和转变规律进行了研究和分析,认为湿法烟气脱硫塔内气液两相顺、逆流时,随着液气比的增大,会形成液柱式、喘动式和类鼓泡式流动等三种流型,并给出了判别三种流型的基本方法和准则,提出了气相雷诺数Reg-液气比L／g流型图,为湿法烟气脱硫塔传热传质规律的进一步研究及塔身的安全运行提供了基础依据。     

倾斜下降管气液两相分层流截面含气率的计算与液层高度的预测

分层流是气液两相流中常见的流动型式，分层流中液层高度是计算的基本数据，由于界面波的存在，对液层的测量和预测都很困难．Ｖｌａｃｈｏｓ提出了预测气液两相分层流液层厚度的关系式，但这一关系式并不适用于倾斜下降管气液两相流．本文提出了计算倾斜下降管气液两相分层流截面含气率的理论模型，在这种模型下得到的截面含气率和实验结果符合良好．在大量实验的基础上，考虑了倾角、管径、气液各相折算速度的影响，根据实验数据提出了预测液层厚度的关系式。     

空气水两相流压力波动现象非线性分析

确定性混沌理论能够深刻揭示气液两相流压力波动的非线性特征。本文研究了确定性混沌不变量－分维数、关联维数、Ｋｏｌｍｏｇｏｒｏｖ 熵在不同流型的变化以及折算液速的影响规律。实验结果表明压力波动的混沌特性与流型有关,分维数除了在高气速的环状流,在其它流型内都小于１．５,折算液速的大小强烈影响压力波动的混沌特性。     

新型三通分配器中环状流相分离预测

实验三通型分配器主管侧壁均匀分布8个直径为3.5 mm小孔,主管中的气液混合物不是直接进入侧支管,而是通过安装在主管外壁上的环室进入侧支管.在水平管空气一水实验台上进行了实验,发现与传统三通型分配器分配特性不同,液相会优先进入侧支管,从而侧支管干度小于主管.建立了相分离预测模型,认为对于环状流,液相主要来自于穿过小孔上方的液膜,而气相根据小孔两侧阻力进行分配.模型预测值与实验结果吻合得很好,最大误差为7.24%.     

离心泵叶轮内气液两相三维流动数值研究

本文采用欧拉模型对离心泵叶轮内气液两相泡状流动进行了数值模拟。分析了叶轮内压力、速度等的分布规律,发现在靠近轮盖侧吸力面入口附近压力较低,气液两相速度较大,气泡容易凝聚而导致含气率较高;靠近轮盘处含气率较低。分析了不同进口截面含气率对叶轮内部两相流动的影响机理,建立了进口截面含气率对内部相态分离及泵外特性的影响关系。     

Suppression of thermally excited capillary waves by shear flow

We investigate the thermal fluctuations of the colloidal gas-liquid interface subjected to a shear flow parallel to the interface. Strikingly, we find that the shear strongly suppresses capillary waves, making the interface smoother. This phenomenon can be described by introducing an effective interfacial tension that increases with the shear rate. The increase of sigma(eff) is a direct consequence of the loss of interfacial entropy caused by the flow, which affects especially the slow fluctuations. This demonstrates that the interfacial tension of fluids results from an intrinsic as well as a fluctuation contribution.     

零净液流量两相流持液率与阻力特性研究

分别以牛顿流体和非牛顿流体为液相，研究了垂直管中零净液流量气液两相流的流动特性。提出了零净液流量气液两相流动模型，应用这一模型计算了零净液流量气液两相流的持液率和压力降，模型计算结果与试验结果相符。研究结果表明，零净液流量气液两相流与常规气液两相流相比具有特殊性，表现为其持液率仅由质量平衡方程控制，其摩擦阻力压力降为负值。     

Disintegration of flows of superheated liquid films and jets

This paper represents results on investigating the dynamics of boiling and disintegration of superheated liquid films and jets. The first part deals with experimental study of boiling liquid outflow through short cylindrical and slit channels. Evolution of disintegration of a hot water jet flow is observed both at low and moderate superheating and at high and limit superheating, and also for vaporization mechanisms corresponding to these superheatings. Peculiarities of disintegration of jets through slit and cylindrical channels are noticed. Results on measuring the reactive thrust of the jet through a slit channel under different geometrical conditions behind the channel outlet are represented. The 1/f fluctuations in transient regimes of superheated liquid boiling and in transient regimes of behavior of the jet shape are found. The second part of this article represents results on experimental investigation of nonsteady heat transfer and dynamics of the development of crisis phenomena at boiling of a falling subcooled liquid film in the conditions of stepwise heat release. The experimental data were obtained using synchronized high-speed infrared thermography and video. It is shown that with growth and condensation of vapor bubbles, on the liquid film interface appear large-amplitude waves that lead to considerably increasing local intensity of heat transfer. New data on the boiling incipience temperature in a subcooled liquid film, depending on the heat flux density, are obtained. It is found that the development of boiling crisis is a result of appearance of local dry patches and their subsequent growth by the mechanism of longitudinal thermal conductivity in the heat transfer wall as the equilibrium heat flux density is exceeded.     

表面活性剂添加对水平管内气液两相流含液率的影响

应用电导断层测量技术研究表面活性剂添加对水平管内气液两相流含液率的影响,实验工质为空气/水、空气/100 mg/kg十二烷基硫酸钠(SDS)水溶液。结果表明,空气/水气液两相流动在光滑分层流型区,表面活性剂添加对平均截面含液率基本没有影响。随着液体流速的增加,空气/水气液两相流动进入波状分层流型区域,添加表面活性剂可以抑制或消除界面波动,增大平均截面含液率。表面活性剂的添加使弹状流含液率下降,气液流速较低时这一现象尤为明显。     

Life at ultralow interfacial tension: wetting, waves and droplets in demixed colloid-polymer mixtures

Mixtures of colloids and polymers display a rich phase behavior, involving colloidal gas (rich in polymer, poor in colloid), colloidal liquid (poor in polymer, rich in colloid) and colloidal crystal phases (poor in polymer, highly ordered colloids). Recently, the colloidal gas-colloidal liquid interface received considerable attention as well. Due to the colloidal length scale the interfacial tension is much lower than in the atomic or molecular analog (nN/m instead of mN/m). This ultra-low interfacial tension has pronounced effects on the kinetics of phase separation, the colloidal gas-liquid profile near a single wall and the thermally induced fluctuations of the interface. The amplitudes of these thermally excited capillary waves are restrained by the interfacial tension and are for that reason of the order of the particle diameter. Therefore, in molecular systems, the capillary waves can only be seen indirectly in scattering experiments. In colloidal systems, however, the wave amplitudes are on a (sub) micrometer scale. This fact enables the direct observation of capillary waves in both real space and real time using confocal scanning laser microscopy. Moreover, the real space technique enables us to demonstrate the strong influence of interface fluctuations on droplet coalescence and droplet break up.     

方管内气液两相流界面波统计特性分析

以空气、水为工质，利用电导探针测量技术结合统计分析理论研究了水平矩形管内气液两相流界面波特性．首先对管内气液两相流的界面波进行了分类和定义；其次研究了气液两相流界面波在幅域、时域和频域的统计特性，同时考察了界面波特性参数（波速、频率和波高）等随气液两相流量的变化规律．     

直接甲醇燃料电池阳极流道两相流动的拟沸腾模型(I)流动压力降的计算

本文分析了直接甲醇燃料电池阳极流道中存在的气液两相流动现象。通过与传统加热管中流动沸腾现象进行比拟,首次提出了“拟沸腾”的概念,建立了气液两相流压力降模型。基于在建的活化面积为100 cm2的DMFC极板的蛇行流场设计,计算了阳极流道的压力降,分析了各分压力降对总压降的影响。计算结果表明:对于小活化面积的电池,在小电流密度下运行时,流道中扩散层表面的“非活化点”处滞留的气泡核心对主流有较大的附加摩擦阻力作用。     

Wavy liquid film in the presence of co- or counter-current turbulent gas flow

The wavy downflow of a viscous liquid film in the presence of the turbulent gas flow was analyzed theoretically. Two-dimensional stationary running waves are calculated in a wide range of Reynolds numbers of liquid and gas. Hydrodynamics of liquid is calculated based on complete Navier-Stokes equations. The wave interface surface is considered as a small perturbation and equations in gas are linearized near the main turbulent flow. Different optimal downflow regimes are determined, and the main wave characteristics are compared in detail with and without the co- and counter-current gas flows. It is shown that at high velocities of the co-current gas flow, the calculated waves correspond to ripples observed in experiments.     

水平管内油气水三相流分流型阻力特性实验研究

对水平管内油气水三相流的摩擦阻力压降特性进行了实验研究,水平管实验段由有机玻璃管制成,内径为40mm,所用的实验工质为:46#机械油,自来水和空气。油、气、水三相的折算速度范围分别为:0.05-0.51m／s、0.05-1.51m／s、0.02-50.6 m／s。按照气液界面总体特征将水平管内油气水三相流的流型分为泡状流、间歇流(段塞流和弹状流)、分层流及环状流。对各种典型流型下的摩擦阻力压降应用改进的Chisholm关系式及油水两相压降关系式进行分析,对Chisholm关系式中的参数C进行了重新定义。发现改进的Chisholm关系式能够较好地对管内油气水三相摩阻压降进行预测,因此改进Chisholm关系式可以作为摩擦压降计算的通用关系式。     

水平管气液段塞流流量瞬变特性模拟研究

以Taitel 和Barnea(1998,1999)提出的段塞流跟踪模型为基础,进一步考虑加速压降的影响,建立了新的瞬态段塞流跟踪模型,并采用面向对象技术编制了数值模拟软件,实现了数值跟踪。计算结果与King等的段塞流气体流量瞬变实验数据对比表明,瞬态跟踪模型较好地预测了气体流量上升造成的段塞流压力“过升”现象,以及长液塞的出现;当气体流量下降时出现的压力“过降”现象和短暂分层流现象也由模型准确预测,分析认为,由于段塞流压降远高于分层流型,因此大部分液塞消失而出现的短暂分层流导致了压力过降。     

重力热管弹状流工况的简化分析

对重力热管弹状流工况进行简化分析，定量描述工业热管工作过程中蒸发段内汽泡的喷涌现象，给出液塞在弹状汽泡载带下的提升高度Ｌ５和体积流量与两端压力间的定量关系．     

Features of the dynamics of postdetonation waves

We present the results of numerical investigations of the parameters of postdetonation waves forming at a passage from the zone occupied with a bubbly liquid formed by the detonation wave to a zone filled with a liquid without bubbles. The dependence of the pressure amplitude of detonation waves and postdetonation waves on the gas volumetric content of bubbles has been studied. A possibility of the detonation transfer through the layer of a bubble-free liquid separating the regions of the bubbly liquid has been shown, the map of possible situations at the detonation transfer through the layer of this liquid has been presented.     

Role of the channel geometry on the bubble pinch-off in flow-focusing devices

The formation of bubbles by flow focusing of a gas and a liquid in a rectangular channel is shown to depend strongly on the channel aspect ratio. Bubble breakup consists in a slow linear 2D collapse of the gas thread, ending in a fast 3D pinch-off. The 2D collapse is predicted to be stable against perturbations of the gas-liquid interface, whereas the 3D pinch-off is unstable, causing bubble polydispersity. During 3D pinch-off, a scaling w_(m) approximately tau(1/3) between the neck width w_(m) and the time tau before breakup indicates that breakup is driven by the inertia of both gas and liquid, not by capillarity.     

油气两相流体纵掠水平螺旋扁管管束摩擦压降的实验研究

以汽油-压缩空气为介质,对气液两相流体纵掠螺距为200mm的螺旋扁管管束的摩擦压降进行了实验研究。讨论并分析了质量含气率、混合物质量流速对摩擦压降的影响。提出了两种预测两相摩擦压降的方法:全液相摩擦乘子、L-M关系式。