竖直窄流道内过冷流动沸腾的单汽泡生长模型

The process of bubble growth on heating wall in subcooled boiling includes the micro-layer evaporation on heating wall and the bubble top coagulation when the bubbles grow to a certain size and emerge into the subcooled mainstream fluid. Based on this consideration, a model for the single bubble growth of subcooled flow boiling in vertical narrow rectangular channel was proposed.Compared with experimental results, the error of the simulation results using the proposed model is less than ±25%. The simulation results indicated that as the wall superheat increases, the bubble growth gets faster, with the subcooled degree of mainstream increases, the bubble growth in later stage would be slowed, with the contact angle increases, the contact radius of the bubble bottom and the wall tension would be strengthened, resulting in faster bubble growth to make the bubble to be flat and more easily exposed to the mainstream. The velocity of mainstream has no significant effects on bubble growth rate.     

三维竖直圆管内流动沸腾的数值模拟

沸腾传热及气液两相流动都是常见的物理现象,其流动形式及传热机理复杂.文章借助于CFX流体计算平台,模拟了水在三维竖直圆管内的过冷流动沸腾过程,给出管内流体状态参数的变化规律.得到沿管长的气相体积分数的变化规律,沿管长沸腾传热系数的变化趋势,明显地看到沸腾对传热的强化作用,得到径向液体温度分布情况.对过冷流动沸腾的内在机...     

高压流体过冷流动沸腾的数值模拟

在二流体模型基础上,采用RPI模型计算加热壁面的相间质量传输,对竖直圆管内高压流体过冷沸腾流动过程进行数值模拟.研究发现:壁面温度沿流动方向有明显拐点.根据壁温变化趋势可以判断,转折点位置即为过冷沸腾起始点;管内流体速度的增长曲线并不是简单单调递增的过程,而是速度增长由刚开始的缓慢上升到急剧上升,与空泡份额的分布曲线相...     

高压高过冷度下过冷流动沸腾数值模拟

采用双流体模型对高压高过冷度下垂直圆管中水的过冷流动沸腾进行了数值模拟。通过对比不同气泡直径模型,揭示了气泡直径对于壁面传热方式的影响,确定了适合高压工况的气泡直径模型。考察了压力及壁面热通量对流动及传热特性的影响。计算结果表明,压力增加气泡脱离直径减小,单相对流传热所占比例增加,表面传热系数减小。高压高过冷度特征决定了气泡相分布极不均匀,随着热通量的增加,壁面附近容易形成气泡的密集,对过冷流动沸腾中的传热特性有重要影响。     

竖直圆管内液氮过冷流动沸腾数值模拟研究

在现有数学模型的基础上,从沸腾换热的机理入手,对过冷流动沸腾模型中的气泡参量模型进行了修正,分析确定了壁面热流密度的拆分方法,构建出适应于液氮的过冷沸腾计算模型。将新模型应用于CFX4.4中,对液氮在三维竖直圆管内的过冷流动沸腾进行了数值模拟。研究发现,在过冷流动沸腾形成之后,蒸发热流成为壁面换热的主要部分,沸腾换热占据换热的主导地位。数值模拟结果与已有的实验数据吻合较好,证明了新建模型的正确性。     

加热上升管内过冷流动沸腾数值模拟

采用计算流体动力学（CFD）程序CFX4.4对加热上升管内过冷流动沸腾工况下气水两相流动局部两相流参数（空泡份额和汽泡尺寸）进行了数值模拟。对数值差分方法、相关模型（界面力和气泡诱导的紊流）和汽泡尺寸进行了敏感性分析。空泡份额分布计算结果与实验结果比较表明,在低空泡份额工况下,两者符合较好,在高空泡份额工况下两者存在一定偏差,并且气相速度和汽泡尺寸的计算结果不理想。计算结果与实验结果之间的差异说明程序模型对于加热上升管内过冷流动沸腾模拟并不完善,建立更为合理的汽泡尺寸模型,考虑汽泡的合并和撕裂是必要的。     

烧结型多孔管管内流动沸腾传热数值模拟

建立了烧结型表面多孔管多孔层的理论模型,应用Fluent软件对去离子水在烧结型表面多孔管和光滑管竖直管内的流动沸腾进行数值模拟,得到了不同流速下的气相体积分布云图和压力场云图,并利用场协同原理分析了管内的速度、温度场.结果表明,烧结型表面多孔管具有良好的强化沸腾传热性能.同时并未大幅度增加管内压力降.此外还分析了不同体...     

微细通道中R32流动沸腾换热的数值模拟

利用VOF多相流模型对R32在1、2 mm水平光管内流动沸腾换热进行了二维非稳态数值模拟。模拟的工况为：质量流速100 kg·m²·s^-1,热通量12 kW·m^-2,饱和温度15℃。模拟结果显示：2 mm通道内工质的流动沸腾过程依次经历了液相单相流、泡状流、弹状流;1 mm通道内工质的流动沸腾过程依次经历了液相单相流、泡状流、受限泡状流、弹状流。利用模拟所得气相体积分数分布、温度分布,分析了R32管内流动沸腾过程中的基本规律和气泡运动特点,以及管径对流动沸腾换热过程流型的影响。利用数值模拟结果与实验结果进行对比,显示较好的一致性。     

竖直环形通道内液氮流动沸腾的数值模拟

在多尺寸组模型的基础上,从加热壁面上脱离汽泡的受力分析人手,对液氮过冷流动沸腾模型进行了修正.将新模型应用于环形通道内液氮过冷流动沸腾的数值模拟,同时为了比较,采用基于Kirichenko,Fritz汽泡脱离直径公式的多尺寸组模型对同一管道内液氮过冷流动进行了数值模拟.结果表明:结合脱离汽泡受力分析模型的多尺寸组模型可...     

流动过冷沸腾传热强化及阻垢

在流动沸腾传热实验中,考察了CaCO3污垢溶液的形成过程及各种工艺条件对流动过冷沸腾传热的影响. 研究条件包括流体速度、溶液温度、CaCO3溶液浓度及热通量,实验中发现了一些规律. 同时还考察了不同阻垢剂[聚天冬氨酸(PASP)、2-膦酸丁烷-1,2,4-三羧酸(PBTCA)及氨基三甲叉膦酸(ATMP)]对流动过冷沸腾传热的影响. 结果表明,所选阻垢剂均能抑制污垢的生成并降低了污垢热阻,而且存在最佳浓度范围. 但不同阻垢剂的阻垢效果不尽相同,在本实验条件下,ATMP的阻垢效果最好,PBTCA次之,PASP的阻垢效果较差.     

Numerical study of condensing bubble in subcooled boiling flow using volume of fluid model

In this numerical study, the behavior of condensing bubble was investigated using the volume of fluid (VOF) model in the FLUENT code. In order to simulate the condensing bubble with the FLUENT code, the bubble condensation was modeled using the user-defined function (UDF). For the validation of the UDF of bubble condensation, the results of CFD simulation were compared with the results of a bubble condensation experiment performed in Seoul National University (SNU). Simulation results showed good agreements with the experimental data. Moreover, the fundamental behavior of the condensing bubble was investigated in various conditions. The effects of condensation on bubble behavior were analyzed by comparing the behavior of condensing bubbles with that of adiabatic bubbles. It was found that the behavior of the condensing bubble was different from that of the adiabatic bubble in many respects including the bubble shape, velocity, rise distance and moving trajectory.     

垂直窄矩形通道内流动沸腾传热研究

在热虹吸条件下，实验研究了缝宽接近于气泡脱离直径型的窄矩形通道内流动沸腾的传热特性。发现其对流蒸发传热中有时处于过渡流状态。首次为对流蒸发传热系数建立了一个通用算式。还将该算式与加和模型相结合，为窄矩形通道形成了第一个完整的流动沸腾传热算法。该算法的预测值与实验数据相比，其平均绝对偏差为１４．９％。     

Numerical simulation of churn flow in a vertical pipe

A numerical simulation of the churn flow regime of air-water and R134a vapour-liquid mixtures by means of the volume of fluid (VOF) method is presented. The focus of the paper is on the inlet region of a vertical pipe. An axisymmetrical domain is used, reproducing the region next to the porous wall liquid injector of a typical test section for the investigation of vertical gas-liquid flows.A simplified model of the levitation process of the ring-type waves typical in churn flow is proposed. The influence of the gas Froude number on the waves amplitude is shown by means of the simplified model and used to explain the numerical results.A comparison of the numerical results with experimental wave frequency data and visualizations available in the literature is performed. The velocity field in the forming wave region and the pressure and shear stress variations along the interface are shown.Simulations have been performed at different liquid and gas superficial velocities and pipe diameters and the influence of these parameters on the gas-liquid interface is discussed.     

自然循环窄矩形通道内过冷沸腾两相摩擦阻力特性

采用去离子水作为实验工质,在低压低流速自然循环工况下开展了单面加热可视化窄矩形通道内的过冷沸腾摩擦阻力特性实验研究。实验中测量了实验段内的压降数据,并通过高速摄影仪拍摄了窄矩形通道内的气液两相图像,提出了过冷沸腾条件下的两相摩擦压降的剥离计算方法。基于本实验中获得摩擦压降数据,对分别基于均相流模型和分液相模型的经典两相摩擦压降计算关系式进行了评估,实验结果表明:采用不同等效黏度计算方法的均相流模型计算结果比实验值明显偏小;而分相流模型中,Sun and Mishiba关系式和Tran关系式均能够较好地预测摩擦阻力,计算值与实验值的平均相对偏差在±15%以内。结合实验数据,以分相流模型方法为基础,考虑全液相Reynolds数、Martinelli参数和Laplace数的影响,获得了计算分液相折算系数的经验关系式,与实验数据符合较好,平均相对误差在10%范围内。