TRANSIENT MIXED CONVECTION ALONG A VERTICAL PLATE EMBEDDED IN POROUS MEDIA WITH INTERNAL HEAT GENERATION AND OSCILLATING TEMPERATURE

The effects of oscillating plate temperature on transient mixed convection heat transfer from a porous vertical surface embedded in a saturated porous medium with internal heat generation or absorption are studied. The governing equations are transformed into dimenionless form by a set of variables and solved using the Galerkine finite element method. As the energy generation increases, the temperature near the wall will be higher than the wall temperature, thus increasing buoyancy forces inside the boundary layer and consequently increasing the velocity. The increase of energy absorption term for either space or temperature dependence will decrease the velocity inside the boundary layer and increase heat transfer rates. Different temperature and velocity profiles are drawn for different dimensionless groups. Numerical values for Nusselt numbers as well as local skin friction coefficient are also tabulated.     

MHD flow and heat transfer of a micropolar fluid over a nonlinear stretching surface with variable surface heat flux and heat generation

An analysis has been carried out to study magnetohydrodynamic boundary layer flow and heat transfer of an electrically conducting micropolar fluid over a nonlinear stretching surface with variable wall heat flux in the presence of heat generation/absorption and a non‐uniform transverse magnetic field. The governing system of partial differential equations is first transformed into a system of ordinary differential equations using similarity transformation. The transformed equations are solved numerically. Results for the dimensionless velocity, micro‐rotation, and temperature profiles are displayed graphically delineating the effects of various parameters characterising the flow. The results show that the velocity profile decreases as the magnetic parameter and the velocity exponent increase, while it increases as the material parameter increases. The results show also that the temperature profile increases as the magnetic parameter, the velocity exponent, and the heat generation parameter increase. Furthermore, the temperature profile decreases as the material parameter, the heat absorption parameter, and the Prandtl number increase.     

SLIP FLOW AND HEAT TRANSFER OF A SECOND-GRADE FLUID IN A POROUS MEDIUM OVER A STRETCHING SHEET WITH POWER-LAW SURFACE TEMPERATURE OR HEAT FLUX

This article deals with the study of boundary layer flow of a second-grade fluid in a porous medium past a stretching sheet and heat transfer characteristics with power-law surface temperature or heat flux. The flow in the boundary layer is considered to be generated solely by the linear stretching of the boundary sheet adjacent to a porous medium, and boundary wall slip condition is assumed. In the energy equation effects of viscous dissipation, work done due to deformation and internal heat generation/absorption is taken into account. Closed form solutions are obtained for this problem.     

Numerical study of transient heat transfer performance for molten salt receiver tube

The heat transfer experimental system and mathematical model of receiver tube are established to analyze the transient heat transfer performance of molten salt with heat flux of outer wall sudden change, molten salt velocity sharp reduction, heat flux of outer wall and molten salt velocity sharp reduction at the same time. The results show that when the heat flow on the outer wall of the tube changes suddenly (sudden increase or decrease), the temperature of the molten salt in the center of the tube at the inlet section of the heat absorption tube changes less, but the temperature of the tube wall changes faster. When the molten salt velocity sharp reduction, the outlet temperature of molten salt and the outer wall temperature increase with time, but the difference of outer wall and inner wall temperature decreases at first and then increases, when t≥16.0 s, each temperature and temperature difference reach steady state. When the heat flux on the outer wall of the heat absorption tube and the molten salt flow rate in the tube are halved at the same time, the temperature of the molten salt in the center and the outlet of the tube rises first and then decreases with the passage of time. After the steady state, the two molten salt temperatures maintain a constant value and are compared with the transient state. The corresponding molten salt temperature is close to initial starting temperature. The difference of outer wall and inner wall temperature after transient stability is proportional to the heat flux of outer wall, but which is independent of molten salt velocity. The outlet temperature equation of molten salt in receiver tube after transient stability is obtained, which provides a theoretical basis for the outlet temperature control of molten salt in receiver during the transient heat transfer process.     

熔盐吸热管瞬态传热特性的数值研究

建立熔盐吸热管瞬态传热的实验台和数值计算模型,分析管外壁热通量突变、熔盐流速突减、外壁热通量和熔盐流速同时突减对吸热管瞬态传热特性的影响规律,结果表明：管外壁热通量突变（突增或突减）时,吸热管入口段的管中心熔盐温度变化较小,但其管壁温度变化较快。管内熔盐流速突减时,熔盐出口温度和管外壁温度均随时间的推移逐渐增大,而管外壁与管内壁温差随时间的推移先降低后升高,t≥16.0 s,各温度和温差基本稳定。吸热管外壁热通量和管内熔盐流速同时减半时,管中心及出口熔盐温度均随时间的推移先升高后降低,稳态后两处熔盐温度保持定值且与瞬态开始前对应熔盐温度接近。吸热管瞬态稳定后的管外壁与管内壁温差和管外壁热通量变化呈正比,与熔盐流速变化无关。得到瞬态稳定后吸热管熔盐出口温度表达式,为瞬态传热过程中吸热器熔盐出口温度控制提供理论依据。     

AN ANALYSIS OF FLOW FILM BOILING OVER AN INCLINED SURFACE EMBEDDED IN POROUS MEDIA

The rate of heat dissipation during flow film boiling from inclined surfaces embedded in porous media is investigated both theoretically and experimentally. The theoretical model relies on the well established Darcy model for the flow both inside the vapor layer and inside the forced convection layer surrounding the vapor film. The main focus is to study the effects of wall temperature, liquid subcooling, wall suction, and orientation of the heated surface on the heat transfer phenomenon. The resulting similarity equations are integrated numerically by use of the fourth-order Runge Kutta method. Systematic “shooting” is required to satisfy the boundary conditions at the liquid-vapor interface and at infinity. Results are reported for the behavior of the vapor film thickness and both the local and average heat transfer coefficients as a function of vapor superheat and liquid subcooling. Experiments were conducted in Freon-113 and a porous medium consisting of 2.8 mm glass beads to verify the theoretical findings, and excellent agreement was found between theory and experiments.     

多孔介质内复合对流传热传质的数值分析

采用数值方法分析了具有非均匀内热源的竖直套管中复合对流传热传质,考查内热源分布系数M和热质二浮力比N对速度、温度、浓度分布以及Nusselt数和Sherwood数的影响。结果表明：当N〉1时速度V为正,其值随N的增加而增大;当N〈-1.5时,V则先负后正。随着M增大,等温线和等浓度线分布更加密集,传热和传质过程更加明显。     

循环射流混合槽内湍流强化传热数值模拟及射流层优化

循环射流混合槽(CJT)作为一种过程强化设备可以提高湍流的混合效率及反应选择性。为进一步提高其工业应用价值,对循环射流混合槽流场的传热能力进行分析并对其射流层数进行结构优化。在恒壁温的条件下,采用SST k-ω模型分析循环射流混合槽流场区域的非稳态流动传热特性。在充分湍流状态下研究了Re=3260~16 303,射流层数M=5~9对循环射流混合槽壁面对流传热特性及流场传热特性的影响。结果表明,M=9时对流换热系数的变异系数Ch随Re增加而减少,壁面传热均匀性提高2.8%~19.3%;流场与温度场协同性随Re增加而增加,Re=16 303时的协同角为75.5o比Re=3260时减小约0.5°。Re=9782时Ch随M增加而降低,壁面传热均匀性提高2.7%~16.3%;速度矢量与温度梯度协同性随M增加而减小,M=9时全局协同性相较于M=5时降低了6.1%。当M=7时中心混合区与射流混合区的场协同角均在73°~74°之间,两区域流场间热量传递能力匹配程度较好;当M<7时中心混合区的协同性优于射流混合区,当M>7时射流混合区协同性优于中心混合区。研究Re及射流层数M对循环射流混合槽热量吸收和传递性能的影响,发现Re的变化对循环射流混合槽吸热量的影响大于射流层数M的变化。     

Thermal Diffusion and MHD Effects on Combined Free‐Forced Convection and Mass Transfer of a Viscous Fluid Flow Through a Porous Medium with Heat Generation

The problem of thermal diffusion and magnetic field effects on combined free‐forced convection and mass transfer flow past a vertical porous flat plate, in the presence of heat generation is studied numerically. The governing momentum, energy and concentration equations are converted into a system of nonlinear ordinary differential equations by means of similarity transformations. The resulting system of coupled nonlinear ordinary differential equations is solved numerically by using the Shooting method. Numerical results are presented for velocity, temperature and concentration profiles within the boundary layer for different parameters of the problem including suction parameter, heat generation parameter, Soret number, Dufour number, magnetic parameter, etc. In addition, the effects of the pertinent parameters on the skin friction and the rates of heat and mass transfer are discussed numerically and illustrated graphically.     

Heat and mass transfer in a boundary layer with the evaporation and combustion of ethanol

Experimental data on heat and mass transfer in a boundary layer upon ethanol evaporation from a porous surface and its combustion in an air flow are reported. It has been established that variations in the flow velocity in the flow core weakly affect the temperature and concentration of substances on the reactor wall. The flame temperature and the distribution of mass flows over the wall depend essentially on the flow velocity. It has been observed that heat-and mass-transfer coefficients decrease in combustion. The representation of experimental data using overall enthalpies and generalized concentrations as transfer potentials suggests an analogy between the processes of heat and mass transfer in a reacting boundary layer.Novosibirsk. Translated from Fizika Goreniya i Vzryva, Vol. 30, No. 1, pp. 8–15, January–February, 1994.     

垂直多孔表面管内高沸点工质强化流动沸腾换热的数值分析

在对流动特性和换热机理进行分析的基础上,建立了垂直多孔表面管内高沸点工质强化流动沸腾换热的数学模型和数值计算方法.该模型认为环状流区域同时存在强制对流与核态沸腾两种换热方式.液膜厚度、速度与温度等参数通过求解液膜的质量守恒、动量守恒、能量守恒方程获得.核态沸腾换热则包括气泡脱离带走的热量及用于加热气化核心影响区流入液体的热量两部分.提出了流动沸腾情况下的多孔层气泡脱离直径及气化核心密度计算方法.对异丙苯在火焰喷涂型垂直多孔表面管内向上流动时的沸腾换热进行了数值预测,大部分工况的计算值与实验结果符合良好.在低干度区(x=0.1),核态沸腾在总换热中的比例约为50%.随着干度的增加,核态沸腾受到越来越大的抑制,当x为0.5时,这一比例降低到约15％.     

Natural convection in a porous medium at high rayleigh numbers — application of prandtl's analogy

The problem of natural convection heat transfer from an isothermal vertical cylinder to a saturated porous medium is solved by the integral method making use of one-seventh profiles for velocity and temperature variation in the boundary layer. Prandtl's analogy is used to obtain the wall heat transfer coefficients. The results obtained for Rayleigh numbers greater than 10⁹ and Prandtl numbers 4 and 0.12 are compared with experimental data from literature show satisfactory agreement. Also an approximate closed form solution is presented for the case of a flat wall to predict local Nusselt numbers.     

附加空气层的多层墙体热湿耦合非稳态传递模型及验证

为准确预测附加空气层的多层墙体内的温湿度分布和动态变化,研究多孔介质墙体内的热湿耦合非稳态传递规律,基于Luikov、Fick定律等基础传递理论,推导出热湿空气在墙体内部的瞬态耦合传递控制方程。通过对控制方程驱动势、方程项系数的改进,以空气含湿量和温度为驱动势,建立了建筑多孔介质墙体热湿耦合传递非稳态模型。采用有限容积法隐式差分格式设计了MATLAB模拟计算程序,设置相应的初始条件和边界条件,计算附加空气层的多层墙体内温度、湿度、传热和传湿量随时间变化的分布规律。最后,通过对比新建模型模拟结果与WUFI软件的模拟计算结果,验证了模型的准确性和可行性。     

一种新型裂解炉炉管强化传热数值模拟

利用计算流体动力学(computational fluid dynamic,CFD)方法对含新型内插件强化传热辐射炉管(fortified induced turbulence,FIT)进行了流体流动与传热特性的研究,采用RNG双方程模型求解了动量方程和能量方程,给出了FIT炉管内的流体流动和传热特性,包括速度场、湍动强度和温度场的分布;计算了FIT炉管的强化传热因子和压降。研究结果表明,FIT炉管内插件迫使流体流动由活塞流转变为旋转流,增强了流动湍流程度,符合流动-能量场协同理论,同时流体边界层由于FIT炉管的特殊结构而减薄。FIT炉管具有增强辐射传热、减薄边界层、增加比表面积和旋流增强等强化传热特性。相比于普通当量圆炉管,FIT强化传热炉管的整体传热能力提高了20%左右,证明该新型炉管强化传热效果显著,可以在工程实际中应用。     

超重条件下泡沫石墨-石蜡相变传热实验研究

基于高热导率多孔材料骨架强化传热的相变蓄冷器具有热容量大、换热效率高、控温稳定、环境适应性强等优点,在航空航天领域具有广泛的应用前景。多孔介质内固-液相变换热过程中,由于相变换热产生的相变工质密度差在加速度的驱动下造成的液相浮升力变化,将引发更为复杂的固-液相变流动与换热不稳定性特征。设计搭建了离心环境条件下的多孔介质内固-液相变换热实验研究装置,实验获得了不同加速度大小和方向下多孔介质内固-液相变换热特性。结果表明,高导热泡沫石墨-石蜡相变蓄冷能够实现界面较低升温速率温控,同时加速度方向对于相变蓄冷装置整体换热效率及换热均温性存在显著影响。当加速度方向与热流方向反向或垂直时,加速度驱动液相储能工质局部自然对流将促进整体换热效率,而加速度方向与热流方向同向时换热效率降低,并且上述差异将随着加速度的提升而进一步扩大。     

空气-石蜡直接接触换热特性实验研究

在间壁式换热器中石蜡因为其热导率低影响了蓄热系统的换热速率,采用石蜡与空气直接接触换热可大幅提高蓄热系统的换热速率。把常温的空气通过气体分布器注入熔融状态的石蜡（100~150℃）中,具体考察了表观气速、静液位高度和传热温差等参数对石蜡-空气鼓泡换热中体积传热系数与气含率的影响。实验结果表明,随着表观气速的增大,体积传热系数与气含率随之增大,并且对于气含率,在较低的表观气速下的增长速率更快;在实验条件下,增加静液位高度都只会导致体积传热系数与气含率的降低,而改变气液温差对体积传热系数的影响不甚明显。根据实验结果获得了石蜡与空气直接接触换热的体积Nusselt数经验关联式。     

Experimental study of characteristics of a laminar boundary layer with hydrogen combustion

Results of an experimental study of a laminar boundary layer with combustion of a hydrogen-nitrogen fuel mixture uniformly injected through a porous wall into an air flow are presented. Data characterizing the ignition conditions are obtained. Based on the recorded temperature distributions, streamwise changes in the location and temperature of the flame front are analyzed as functions of the free-stream velocity (1–4 m/s), injection intensity, and fuel composition. It is demonstrated that heat transfer can be adequately described by a “standard” dependence for the boundary layer with boundary conditions of the second kind.     

外凸式波节套管换热器壳程流动与传热机理的数值模拟

针对波节套管换热器壳程中的流动和传热机理进行了k-ε的数值模拟研究。采用六面体网格结合波节区域加密的特殊划分方法,进行了首层网格间距和主流区网格间距的无关性分析。数值模拟结果与经验公式进行对比,验证了数值模拟方法的准确性。对比分析了波节管和光管中流动和传热参数（速度、温度、湍动能和湍流耗散率）的性能差异,揭示了波节管的强化换热机理。同时,分析了波节管的局部Nusselt数和阻力降沿壁面的变化规律。结果表明流体在波节的去流侧形成了一个脱体旋涡,破坏了流体的速度边界层和温度边界层,同时使得其内部的摩擦阻力和热扩散能力明显提高,起到了明显的强化换热效应。     

纳米结构表面液体沸腾传热的分子动力学模拟

为了从纳米尺度了解表面结构和润湿性对池沸腾液体与固体壁面的传热性能,本文采用分子动力学方法研究了超亲水至超疏水不同润湿性的液体氩在光滑表面和含凹、凸半球纳米结构表面的沸腾传热过程,分析了三种表面上液氩在受热过程的形态、温度、热流密度等相关参数的变化情况。结果表明,液氩层沸腾过程大致可分为液氩层吸附于固体表面和液氩层从壁面脱离两个加热阶段,当液氩层吸附于固体表面时,温度升高、热流密度及气态氩原子产生速度均大于液氩层脱离壁面时的情况,在这两个阶段亲水表面上氩原子温度变化有明显的拐点,而疏水表面在两个阶段加热过程相差不大。亲水表面上的微结构能吸附更多液氩原子,促进了气泡产生及加速温度、热流密度的变化,而在疏水及超疏水微结构表面,微纳结构与液氩间的气膜层促进了气泡产生,计算结果为池沸腾传热及微结构选择提供了理论依据。     

甲烷水蒸气重整制氢反应及其影响因素的数值分析

本文通过建立包含动量、能量、质量以及化学反应的多物理场耦合数值模型, 以多孔介质模型表征催化剂层, 对工业转化炉管中的甲烷水蒸气重整制氢过程进行了详细分析。计算得到了转化炉管内甲烷重整过程反应物及产物气体的速度、温度及浓度场分布, 以此分析了甲烷重整制氢过程的反应特性, 并阐明了转化炉管的壁面温度、原料气入口水碳比以及入口速度对甲烷转化率的影响。结果表明:水蒸气重整在转化炉管的入口区域反应迅速, 沿着气体流动方向, 反应速率由于反应物浓度的不断降低而减小, 导致混合气体流动速度和温度也逐渐趋于稳定;水碳比和转化管壁面温度的增加以及原料气体入口流速的降低, 都会提高甲烷的转化率。本文所得到的结论对于优化实际生产中甲烷水蒸气重整制氢反应的工况条件具有一定的参考和借鉴意义。