An Improved Coupled Level Set and Continuous Moment-of-Fluid Method for Simulating Multiphase Flows with Phase Change

An improved algorithm for computing multiphase flows is presented in which the multimaterial Moment-of-Fluid(MOF)algorithm for multiphase flows,initially described by Li et al.(2015),is enhanced addressing existing MOF difficulties in computing solutions to problems in which surface tension forces are crucial for understanding salient flow mechanisms.The Continuous MOF(CMOF)method is motivated in this article.The CMOF reconstruction method inherently removes the"checkerboard instability"that persists when using the MOF method on surface tension driven multiphase(multimaterial)flows.The CMOF reconstruction algorithm is accelerated by coupling the CMOF method to the level set method and coupling the CMOF method to a decision tree machine learning(ML)algorithm.Multiphase flow examples are shown in the two-dimensional(2D),three-dimensional(3D)axisymmetric"RZ",and 3D coordinate systems.Examples include two material and three material multiphase flows:bubble formation,the impingement of a liquid jet on a gas bubble in a cryogenic fuel tank,freezing,and liquid lens dynamics.

Comparison of One-Dimensional Analysis with Experiment for CO₂Two-Phase Nozzle Flow

The aim of this study is to investigate CO2 two-phase nozzle flow in terms of both experimental and analytical aspects for the optimum design of two-phase flow nozzle of CO2 two-phase flow ejector. In the experiment, it is measured that the temperature profile in the stream-wise direction of a divergent-convergent nozzle through which CO2 in the supercritical pressure condition is blown down into the atmosphere. In the analysis, a one-dimensional model which assumes steady, adiabatic, frictionless, and equilibrium is proposed. In the convergent part of the nozzle the flow is treated as single-phase flow of liquid, whereas in the divergent part the flow is treated as separated two-phase flow with saturated condition. The analytical results indicate that the temperature and the pressure decrease rapidly in the divergent part, and the void fraction increases immediately near the throat. Although this analysis is quite simple, the analytical results can follow the experimental results well within this study.

Branch Quality Control of Gas-Liquid Two-Phase Flow Using a Novel T-Junction Type Distributor

In order to eliminate mal-distribution and ensure the side arm to produce desirable gas quality a special distributor is proposed. The experimental distributor mainly consists of a straight through section,a gas extraction line,a liquid extraction line and a side arm branch. A gas orifice and a liquid orifice are mounted at the gas and liquid extraction line respectively to control the outlet gas quality. The diameter of the liquid orifice was set to 2. 50 mm and three gas orifices with different size( dG= 2. 65,5. 00,10. 00 mm) were tested. The experiments were carried out at an air-water two-phase flow loop. The gas superficial velocity ranged from 6. 0 to 20. 0 m /s and the liquid superficial velocity was in the range of 0. 02- 0. 18 m /s. Flow patterns such as wave flow,slug flow and annular flow were observed. The gas quality of the side arm branch was found mainly determined by the flow area ratio of the gas orifice to the liquid orifice and independent of gas and liquid superficial velocity,flow patterns and extraction flux.

Measurement of Two Phase Flow in Porous Medium Using High-resolution Magnetic Resonance Imaging

Measurement of two phase flow in porous medium for sequestration was carried out using high-resolution magnetic resonance imaging (MRI) technique. The porous medium was a packed bed of glass beads. Spin echo multi sequence was used to measure the distribution of CO2 and water in the porous medium. The intensity images show that the fluid distribution is non-uniform due to its viscosity and pore structure of porous medium. The velocity distribution of fluids is calculated from the saturation of water and porosity of porous medium. The experimental results show that fluid velocities vary with time and position. The capillary dispersion rate donated the effects of capillary, which was largest at water saturations of 0.45. The displacement process is different between in BZ-02 and BZ-2. The final water residual saturation depends on permeability and porosity.

Numerical simulation of stratified turbulent two-phase flow in aquatic environment

The two fluid model of stratified turbulent two phase flow in aquatic environment is developed in this paper. The motion of each phase is described by a unified multi fluid model in an Eulerian coordinate system. The laws of turbulent transportation for each phase, and the restriction of each other between the two phases are completely simulated. The complex two phase turbulence with strong buoyancy effects is selected to examine numerically. The extensive experimental data obtained in stratified flow are used here. Comparison of the results of numerical simulation with the experimental data is conducted. It has shown that the results of numerical simulation are satisfactory.

CO_(2)多气泡上升过程传质特性的数值分析

为了揭示CO_(2)多气泡上升行为和气液传质过程的相互作用机制,通过VOF(流体体积法)多相流模型结合自定义程序,实现气泡流动与传质的耦合,数值模拟结果表明:CO_(2)多气泡上升过程出现了聚并、破碎、自由上升和排斥等相互作用现象,气泡尾流经历对称脱落、过渡态和周期性脱落3个阶段,气泡初始间距、气泡初始大小和液相物性等因素共同影响着多气泡的运动和传质过程。初始间距较小时气泡易聚并,聚并过程减小了气液接触面积,不利于传质;初始直径较小时气泡运动越不稳定,停留时间长,可以促进气液传质;液相黏度越大阻力越大,抑制了气相在尾流的扩散,不利于传质。

CO_(2)地质封存诱发断层活化和流体泄漏模型及数值研究

地下注入二氧化碳(CO_(2))可能通过改变孔隙压力和地下应力而引发地震。深入了解流体注入导致的断层再活化的基本机理对于评估与地下流动过程相关的地震及流体泄漏风险具有重要意义。基于此问题,本文推导了地层和断层内CO_(2)与水两相渗流控制方程,建立了模拟CO_(2)注入诱发断层活化及泄漏的全过程数值模型,重点分析了不同的断层属性和CO_(2)注入工况对断层活化及流体泄漏的影响。数值结果表明,在断层活化后,其渗透率显著提升,最大增幅可达106倍,将断层滑移区从原本的阻碍渗透的屏障状态转变为主导渗流通道。不同的初始切向渗透率对断层活化时的力学特征有显著影响,初始切向渗透率越大,断层滑移量越大。具有较强的剪切刚度的断层对注入诱发的活化表现出更强的抵抗能力。此外,CO_(2)注入速率影响了断层活化的地震和CO_(2)泄漏。低注入速率在相同的注入量下引起的断层滑移量更小,但伴随着更多的CO_(2)泄漏;而高注入速率下,断层滑移量更大,但CO_(2)泄漏量较少。

基于气−水两相流的注热CO_(2)增产CH_(4)数值模拟研究

注CO_(2)增产煤层气技术(CO_(2)−ECBM)可以降低温室气体排放,具有清洁能源生产和环境保护的功能。为研究气−水两相流条件下,在含水煤层中注CO_(2)增产CH_(4)的排采规律以及不同初始含水饱和度、不同CO_(2)注入条件对CH_(4)产量、CO_(2)储存和储层渗透率的影响,构建了竞争吸附、温度变化、煤体变形以及水运移的流−固−热耦合模型,通过与现场数据、已有试验以及现有模型的数值解结果,对比证明了模型有较高的准确性并对模型的优势做出具体阐述,随后利用COMSOL开展了CO_(2)−ECBM数值模拟。结果表明:注CO_(2)可以提升CH_(4)产气速率和产气量,这表明了注CO_(2)增产的可行性。随着CO_(2)持续注入,储层CH_(4)浓度降低,CO_(2)浓度升高,注气井附近温度升高,生产井附近温度降低且从注气井到生产井的温度缓慢下降;注气抽采期间,水相相对渗透率逐渐减小,气相相对渗透率逐渐增大。由于有效应力、基质收缩/膨胀共同作用,储层渗透率呈现“降低—升高—降低”的趋势;煤层初始含水饱和度越大,CH_(4)产量越低,渗透率下降幅度越小。累计CH_(4)产量最大下降15.19%,忽略煤层中水的影响会高估CH_(4)产量,在进行数值模拟时要考虑煤层水的影响;CO_(2)注入温度与注入压力越大,CH_(4)产量越大,渗透率下降幅度越大。累计CH_(4)产量分别增加13.27%、39.77%,渗透率分别下降20.4%、46.14%,提高CO_(2)注入温度和注入压力有利于提高CH_(4)产量。

包气带水气二相流CO_2运移规律

利用土柱实验装置模拟CO2 在土壤中的迁移转化规律 ,重点研究湿润峰处水、气二相间污染物转化 .实验土柱长 1m ,过饱和CO2 溶液浓度为 748mg/L .分析表明水相运移受对流、弥散、反应及水 气质量传输机制控制 ,气相运移受对流、扩散和水 气质量传输机制控制 .对土柱中水气二相动态条件下的取样方法进行了探索 ,确定了CO2 在渗透湿润峰水 气二相间分配系数为 0 0 0 0 61 ,表明水相向气相有一定传输 ,但不显著 .

气相压力对CO_(2)/H_(2)O气液两相泡状流中20#钢初期腐蚀行为的影响

在气液两相流条件下,为研究CO_(2)压力对20#钢初期腐蚀行为的影响,采用气液两相流的动态腐蚀平台,通过失重法、SEM、EDS、XRD等系统研究了20#钢在不同CO_(2)压力下的腐蚀速率、腐蚀形貌及产物。结果表明:在不同腐蚀时间下,腐蚀速率均随CO_(2)压力的增大呈先减小后增大的趋势,在CO_(2)压力为0.1 MPa时出现最小值,同一CO_(2)压力下腐蚀速率偏差随着时间的延长明显降低,表面腐蚀产物的致密度随着CO_(2)压力的增加而提高,不同CO_(2)压力下管壁表面腐蚀后的形貌呈现两种不同的特征,即粗糙区和相对平滑区,两种特征区内均包括相对均匀产物与突起产物,均匀产物中C和O的含量均低于突起产物,两种产物中C和O的含量随CO_(2)压力的升高而升高,表面腐蚀产物的主要构成相为FeCO_(3)、γ-FeOOH、Fe_(3)O_(4)。

p27^(Kip1)调控永生化人神经前体细胞分化的机制

目的研究p27Kip1在永生化人神经前体细胞分化中的作用,探讨神经前体细胞的分化机制。方法取本课题组已建立的永生化人神经前体细胞系hSN12W-TERT细胞(第12代)进行培养,在细胞进入对数生长期时给予1μmol/L全反式视黄酸(RA)诱导,重复诱导3次,每次均在诱导的第3、5、7天收集细胞,用流式细胞仪分析RA诱导第3天细胞周期的变化,用免疫印迹法检测RA诱导第3、5、7天p27Kip1、p21cip1细胞周期蛋白依赖激酶2(cdk2)及S期激酶相关蛋白2(skp2)的变化。结果流式细胞术结果显示,hSN12W-TERT细胞经1μmol/LRA诱导3d后,G0/G1期细胞的比例由77.25%上升至85.68%,而S期的比例由9.38%下降到8.57%。免疫印迹法结果显示,RA诱导第3天,hSN12W-TERT细胞p27Kip1蛋白表达比未经RA诱导的细胞增加,并在RA诱导第5天达到高峰(P<0.05)。未经RA诱导的正常hSN12W-TERT细胞p21Cip1蛋白表达弱,RA诱导后p21Cip1蛋白的表达略呈下降趋势。RA诱导前后hSN12W-TERT细胞cdk2蛋白的表达变化不明显,但反映cdk2活性的磷酸化cdk2(p-cdk2)的表达在RA诱导后明显下降,同时,参与p27Kip1泛素降解途径的重要因子skp2的表达在RA诱导后明显下降。结论在RA诱导hSN12W-TERT细胞分化的过程中,p27Kip1通过抑制cdk2的活性而发挥促细胞分化的作用,且RA诱导后p27Kip1蛋白含量增加与其泛素降解途径被抑制密切相关。

油水两相流体系下的CO_(2)腐蚀行为研究

目前常采用注水方式开采石油,但是含水输油管道中常发生CO_(2)腐蚀现象,因此采用计算流体力学方法(Computational Fluid Dynamics,CFD),研究了不同含水率、不同流速下的直管和弯管中油水分布情况,确定了输油管道CO_(2)腐蚀的发生条件,并分析了流速及含水率对壁面剪切力的影响。结果表明,CO_(2)腐蚀的发生取决于管道内的含水率和流速。当含水率升高时,油品浸润在管道内壁阻止腐蚀的发生;当含水率降低时,积水量增加,导致CO_(2)腐蚀严重。当流速增大时,管道内发生湍流,因此难以形成积水,降低腐蚀风险。但是,流速增大时会导致壁面剪切力增加,破坏腐蚀产物膜,进而进一步加快腐蚀速率。向下倾斜弯管在重力作用下往往不会发生积水,腐蚀风险低;向上倾斜弯管最容易发生积水,腐蚀风险高;受冲刷作用的影响,弯头端的腐蚀严重。弯头处容易受腐蚀和力学的交互作用,因此腐蚀严重。研究结果对油田集输管道的安全运行具有一定的指导意义。

超声血流向量成像评价2型糖尿病患者等容收缩期左心室流场状态

目的采用超声血流向量成像(vector flow mapping,VFM)技术评价2型糖尿病(type 2 diabetes mellitus,D2M)患者等容收缩期(isovolumetric contraction phase,IVC)左心室(left ventricle,LV)血液流场状态,揭示D2M患者左心室血流动力学异常。方法 51例D2M患者为D2M观察组,42例健康成人为对照组。采集连续3个心动周期及标准心尖四腔(apical four chamber,AP4c)常规二维灰阶图像和彩色多普勒血流动态图像,在机获取左心房(left atrium,LA)和LV内径、射血分数(ejection fraction,EF)、等容收缩时间(isovolumetric contraction time,ICT)、射血前期时间(pre ejection time,PET)等参数。将AP4c彩色多普勒血流动态图导入图像后处理工作站离线分析,获取IVC左心室能量损耗(energy loss,EL)及涡旋循环强度(Circulation)、中心位置、面积(area)等参数。比较两组常规心脏解剖和功能参数、EL及涡旋参数,并将EL与涡旋参数、LV流场参数与IVC时间参数进行关联性分析。结果等容收缩期LV流场参数比较:D2M组IVC总能量损耗(EL_SUM)及平均能量损耗(EL_AVG)较正常组明显增高,差异有统计学意义(P<0.01);D2M组涡旋循环强度(Circulation)、涡旋中心横向坐标(Vortex-X)均较正常组增高,而涡旋中心纵向坐标(Vortex-Y)较正常组降低,差异均有统计学意义(P<0.05)。EL与涡旋参数相关性分析:两组EL_SUM及EL_AVG与Circulation呈明显正相关关系(P<0.01);D2M组EL_SUM与Vortex-Y呈负相关关系(P<0.05),EL_AVG与Vortex-Y呈明显负相关关系(P<0.01)。结论 D2M患者等容收缩期左心室血液流场状态发生异常改变和能量损耗明显增加,有可能导致左心室射血功能异常。

HVOF喷涂Cr_(3)C_(2)-25NiCr涂层和WC-12Co涂层的组织结构及抗磨蚀性能

采用HVOF喷涂技术在水轮机用0Cr13Ni5Mo不锈钢表面分别制备Cr_(3)C_(2)-25NiCr涂层和WC-12Co涂层。利用光学显微镜、显微硬度计、冲击韧性试验机、摩擦磨损试验机、扫描电子显微镜分析比较了两种涂层的微观组织结构、显微硬度、孔隙率、冲击韧性、抗磨损性能。结果表明:Cr_(3)C_(2)-25NiCr涂层的孔隙率为0.97%,平均显微硬度为1113 HV,WC-12Co涂层的孔隙率为0.56%,平均显微硬度为1241 HV;WC-12Co涂层的冲击韧性和抗磨蚀性能均优于Cr_(3)C_(2)-25NiCr涂层,涂层的失效主要是砂粒、水、气泡三相流复合磨蚀作用的结果。

复杂裂缝中CO2流体携砂规律的数值模拟

基于计算流体力学(CFD)方法,建立了适用于模拟CO 2流体和支撑剂两相流动规律的固液两相流数学模型,并利用有限体积法进行求解,分析了泵注速度、砂比、支撑剂密度和粒径以及裂缝复杂程度对支撑剂在复杂裂缝中运移规律的影响。结果表明:支撑剂流入分支缝的方式主要包括主裂缝在分支缝缝口处形成砂堤后依靠重力作用滚入二级缝中,或是依靠携砂液的流速携带至分支缝内;泵注速度、支撑剂目数与平衡高度呈负相关,且泵注速度与平衡时间呈负相关、支撑剂目数与平衡时间呈正相关;砂比、支撑剂密度与平衡高度呈正相关,与平衡时间呈负相关;裂缝的级数越多,达到平衡所需要的时间越长,复杂裂缝中支撑剂在各分支缝节点处出现转向运移,且主要沉降在离主裂缝较近的二级缝中;由于三级缝较窄,进入三级缝深部的支撑剂量较少,且各分支缝中的砂堤高度小于主裂缝中的砂堤高度。

Performance of a Horizontally Mounted Venturi in Low-pressure Wet Gas Flow

The performance of a Venturi tube used in wet gas flow have been explored mainly under higher-pressure condition, but very often, low-pressure test exists in some oil and gas fields in Tianjin Dagang Oil and Gas Field in China. In this study, the performance of horizontally mounted Venturi meters in low-pressure wet gas flow is discussed. Three 50 mm Venturi meters were tested systematically, with fl values of 0.4048, 0.55 and 0.70, the opera- tion pressure of 0.15 MPa, 0.20 MPa, 0.25 MPa, the gas densiometric Froude number from 0.6 to 2.0, the modified Lockhart-Maretinelli parameter from 0.0022 to 0.06, and the ratio of the gas liquid mass flow rate from 0.5 to 0.99. The effects of modified Lockhart-Maretinelli parameter, pressure, gas densiometric Froude number, diameter ratio, and gas-liquid mass flow rate ratio to the Venturi tube are analyzed with new independent data. Furthermore, low-pressure performance was compared with that under high pressure.

基于门控循环单元的动态过程下两相CO_(2)质量流量测量

针对碳捕集与封存条件下科里奥利质量流量计测量气液两相CO_(2)动态过程质量流量时误差较大的问题,本文提出了一种基于门控循环单元(GRU)的动态过程下气液两相CO_(2)质量流量校正方法。利用GRU适合动态过程预测的特点,使用来自CO_(2)气液两相流实验平台的采集数据,对GRU网络模型进行训练,并使用网格搜索法结合K折交叉验证优化模型参数。使用八组典型工况下的测试集对优化后的GRU模型在测量精度和泛化性能方面进行了评估,并与最小二乘支持向量机(LS-SVM)模型进行了对比分析。实验结果表明GRU模型优于LS-SVM模型,并且GRU模型在动态波动发生后的平稳阶段,其输出结果能够快速跟随CO_(2)质量流量变化,相对误差在±5%以内。

应用KCl—Na_2SO_4—H_2O四元相图分析K_2SO_4生产的有关问题

应用KCl—Na2SO4—H2O四元体系相图分析K2SO4生产中有关母液不同的回收方法,比较工艺流程情况以及工艺的简略计算,提出了较为理想的方案。

气体流速对含CO_(2)天然气湿气管道腐蚀速率的影响

以某CO_(2)含量为5.2%的气田采出气为研究对象,通过PREDICT软件模拟研究了对于管径为DN150的5km水平管段,当末端压力为3MPa、起始端温度为16℃时,气体流速大小对管道的内腐蚀速率及其腐蚀机理的影响。结果表明,当管道起始端介质流速小于1.85m/s时,管道的内腐蚀速率随气体流量的增加而减小,此时管道的腐蚀机理主要为电偶腐蚀;当管道起始端介质流速大于1.85m/s时,管道内腐蚀速率随着流速的增加而增大,此时管道的内腐蚀主要受管道内流型的变化、传质作用及流体介质对腐蚀产物膜的冲刷作用等因素控制;将挂片腐蚀测量结果与软件计算结果对比发现PREDICT软件有较高的计算精度。

临界CO_(2)传输中水合物对弯管冲蚀规律分析

管道输送超临界CO_(2)过程中,受含汽量条件影响而形成的CO_(2)固体水合物颗粒会对管壁造成冲蚀。研究水合物颗粒在不同条件下对弯管管壁的冲蚀规律对CO_(2)的安全输送有重要意义。利用COMSOL Multiphysics软件分析超临界CO_(2)输送管道的弯管段的固液两相流的流场规律,研究不同流速、不同粒径、不同弯曲角度下固体水合物对管壁的冲蚀规律。结果表明,流动速度和粒子粒径的增加会使固体水合物对管壁的冲蚀更严重,使冲蚀区域的分布位置往弯管外侧管壁集中;弯管角度发生变化时,碰撞时粒子的入射方向与壁面的夹角发生改变,造成了冲蚀区域和程度的不同,直角弯管更易受到水合物粒子的冲蚀破坏。