PREFACE TO SPECIAL ISSUE MULTIPHASE FLOWS AND HEAT/MASS TRANSFER

IF 0.7 Q4 THERMODYNAMICS

Interfacial Phenomena and Heat Transfer Pub Date : 2019-01-01 DOI:10.1615/interfacphenomheattransfer.2020033359

T. Lyubimova, O. Goncharova, A. Kupershtokh

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Abstract

This issue is devoted to the problems of Multiphase Flows and Heat/Mass Transfer. Three papers included in this issue concern the theoretical investigations on the behavior of n onu iform hydrodynamical systems under the action of time-dependent external fields. The effects of pulsating pr essure field, external mechanical vibrations, and alternat ing electric field are discussed. In the paper by A.A. Alabuzhev, the dynamics of a cylindrical g seous bubble surrounded by a coaxial layer of incompressible fluid of different density and bounded in t he axial direction by parallel rigid plates with different properties are studied. The system is subjected to the pulsa ting pressure field. Velocity of three-phase contact line motion is assumed to be proportional to the contact angle dev iations. It is shown that, in some parameter ranges, the frequency of volume oscillations can be close to zero. If thi s frequency is close to one of the frequencies of shape oscillations, then a double resonance response is observed that leads the unlimited growth of oscillation amplitude independently of the coefficient of eigen-oscillation damp ing. E.S. Sadilov discusses the effect of normal vibrations on th e stability of a three-layer system of fluids in zero gravity conditions. It is found that, when the ratio of exter nal layer thicknesses tends to unity the critical vibration amplitude for subharmonic instability mode tends to infinit y, which means the disappearance of subharmonic instability mode for the external layers of equal thicknesses. Synch ronous instability mode exists at any ratio of the external layer thicknesses. The work “Electroconvection Instability of Poorly Conduct ing Fluid in Alternating Electric Field,” by N.N. Kartavykh and O.O. Nekrasov, deals with the study of a flat horizo ntal layer of a poorly conducting fluid subjected to the alternating electric field and heating from above. The el ectroconductive instability mechanism is analyzed. On the basis of the linear analysis, a map of the stability of a condu ctive state of nonuniformly poorly heated conducting fluid is plotted and the dependence of the critical wave numbers on the electric field frequency is obtained. Quasiperiodic, synchronous, and chaotic oscillation regimes are found as a re ult of the nonlinear system dynamics analysis. The domains of coexistence of oscillatory modes with different intensities of flows are found. In the work “Investigation of the Isothermal Rheokinetic Po lymerization of the Epoxy Oligomer,” by V.G. Gilev, V.S. Chudinov, S.V. Rusakov, and A.V. Kondyurin, an experim ental study and numerical simulations of the kinetics of polymerization of the epoxy oligomer were carried out. Nume rical analysis of the kinetic dependencies of viscosity allows one to estimate the reaction rate constants of the pol ymerization process, which makes it possible to predict the properties of the polymer during its formation. It is shown t hat the results of viscosity measurements can track quite well, not only the curing process of the binder but also its ra e. The article by K. Schweikert, A. Sielaff, and P. Stephan, “He at Flux during Dip-Coating of a Superheated Substrate,” is devoted to the transient heat flux calculations b ased on temperature measurements during the process of dipcoating of a superheated substrate. The surface temperatur e of the solid substrate is measured using high-resolution infrared thermography. Then, the obtained values were used a a boundary condition in simulations at the interface between the superheated substrate and the fluid. Two evapora tion regimes, namely, contact line evaporation and microlayer evaporation, were clearly distinguished by their magnitude in overall heat flux. The outflow of superheated fluid from the pipe channel into a cl osed volume is numerically simulated in the paper by M. Alekseev, I. Vozhakov, and S. Lezhnin. The simulations were carried out on the basis of a homogeneous onevelocity model. Distributions of pressure, velocity, and s team content in the volume are obtained. It was revealed that the distance between the pipe channel and the opposite wall a ffects the time to reach quasistationary values for the pressure and steam content. In the work by T. Gambaryan-Roisman, “Simultaneous Imbibit ion and Evaporation of Liquids on Grooved Substrates,” the hydrodynamics and heat and mass transport pro cesses on textured surfaces are described theoretically an d

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特刊多相流与传热传质前言

这期研究的是多相流和传热传质问题。本文收录了三篇论文，对非均形流体动力系统在时变外场作用下的行为进行了理论研究。讨论了脉动压力场、外部机械振动和交变电场的影响。a . a . Alabuzhev研究了由不同密度的不可压缩流体组成的同轴层包围的圆柱形气泡的动力学，并在轴向上用不同性质的平行刚性板作界。系统受到脉冲压力场的作用。假定三相接触线运动速度与接触角位移成正比。结果表明，在某些参数范围内，体积振荡的频率可以接近于零。如果该频率接近形状振荡的一个频率，则观察到双共振响应，导致振荡幅度无限增长，而不受本征振荡阻尼系数的影响。E.S. Sadilov讨论了正常振动对零重力条件下三层流体系统稳定性的影响。研究发现，当外层厚度比趋于一致时，亚谐波失稳模态的临界振动幅值趋于无穷大，这意味着等厚度外层的亚谐波失稳模态消失。同步失稳模式存在于任意外膜厚度比下。N.N. Kartavykh和O.O. Nekrasov的著作《交变电场中导电性差的流体的电对流不稳定性》研究了受交变电场和上方加热作用的导电性差流体的平坦水平层。分析了电导不稳定机理。在线性分析的基础上，绘制了非均匀差热导电流体的导电状态稳定性图，得到了临界波数与电场频率的关系。通过非线性动力学分析，得到了系统的准周期、同步和混沌振动状态。找到了不同流强度下振动模态共存的区域。在由V.G. Gilev, V.S. Chudinov, S.V. Rusakov和A.V. Kondyurin撰写的“环氧低聚物的等温流变动力学Po聚合研究”中，进行了环氧低聚物聚合动力学的实验研究和数值模拟。对黏度的动力学依赖性进行数值分析，可以估计聚合过程的反应速率常数，从而可以预测聚合物在形成过程中的性质。结果表明，粘度测量的结果不仅可以很好地跟踪粘合剂的固化过程，而且可以跟踪粘合剂的固化过程。K. Schweikert, a . Sielaff和P. Stephan的文章，“他在过热基材浸涂期间的通量”，致力于基于过热基材浸涂过程中温度测量的瞬态热流密度计算。采用高分辨率红外热像仪测量固体衬底的表面温度。然后，将得到的数值作为一个边界条件用于过热基板与流体交界面处的模拟。两种蒸发模式，即接触线蒸发和微层蒸发，在总热通量的大小上有明显的区别。M. Alekseev, I. Vozhakov和S. Lezhnin对过热流体从管道通道向封闭体的流出进行了数值模拟。模拟是在均匀单速度模型的基础上进行的。得到了压力、速度和s含量在体积中的分布。结果表明，管道与对面壁面之间的距离对压力和蒸汽含量达到准平稳值的时间有影响。在T. Gambaryan-Roisman的作品《沟槽基底上液体的同时吸收和蒸发》中，从理论上和理论上描述了纹理表面上的流体动力学、热量和质量传递过程

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来源期刊

Interfacial Phenomena and Heat Transfer THERMODYNAMICS-

CiteScore

1.70

自引率

40.00%

发文量

期刊介绍： Interfacial Phenomena and Heat Transfer aims to serve as a forum to advance understanding of fundamental and applied areas on interfacial phenomena, fluid flow, and heat transfer through interdisciplinary research. The special feature of the Journal is to highlight multi-scale phenomena involved in physical and/or chemical behaviors in the context of both classical and new unsolved problems of thermal physics, fluid mechanics, and interfacial phenomena. This goal is fulfilled by publishing novel research on experimental, theoretical and computational methods, assigning priority to comprehensive works covering at least two of the above three approaches. The scope of the Journal covers interdisciplinary areas of physics of fluids, heat and mass transfer, physical chemistry and engineering in macro-, meso-, micro-, and nano-scale. As such review papers, full-length articles and short communications are sought on the following areas: intense heat and mass transfer systems; flows in channels and complex fluid systems; physics of contact line, wetting and thermocapillary flows; instabilities and flow patterns; two-phase systems behavior including films, drops, rivulets, spray, jets, and bubbles; phase change phenomena such as boiling, evaporation, condensation and solidification; multi-scaled textured, soft or heterogeneous surfaces; and gravity dependent phenomena, e.g. processes in micro- and hyper-gravity. The Journal may also consider significant contributions related to the development of innovative experimental techniques, and instrumentation demonstrating advancement of science in the focus areas of this journal.