两种拓展达西模型对金属泡沫填充管中流动与传热的影响

本文就恒热流条件下金属泡沫填充管中的流动与传热进行了数值模拟,其中采用局部非热平衡的两方程模型作为能量方程,分别采用Brinkman拓展达西模型和Brinkman-Forchheimer拓展达西模型作为动量方程,并把两者进行比较和分析。数值模拟结果表明:在两种拓展达西模型下解得的速度场不同,但是解得的温度场差异不大,因而其Nu数差异也很小。金属泡沫填充管的Nu数高达数百甚至数干,表明其换热性能很强,但同时却有着较高的压降。

两种修正达西模型对平板通道内流动换热的影响

采用数值模拟的方法,对层流状态下恒热流壁面平板通道完全填充多孔介质的流动换热进行了相关研究.通过局部热平衡模型描述多孔介质内的换热,分别用Brinkman-Darcy流动模型和Brinkman-Forchheimer-Darcy流动模型描述多孔介质内的流动,并对比了两种流动模型下的流动换热性能.结果表明:Re数较小时,两种流动模型下的换热差异很小(壁面平均Nu数相差<1%);随着Re数的增大,两种流动模型下的速度场和温度场差异增大,因而为了更准确的描述添加多孔介质后通道内的流动换热变化,在Re数较大时,需采用BDF流动模型.

岩土体介质非达西渗流特性研究进展

岩土体是常见的天然材料和工程材料,厘清不同环境下的岩土体非达西渗流特性,是评价工程防渗性能和渗透稳定性的基础。岩土体兼具孔隙和裂隙结构,渗流流态可划分为低速非达西渗流、达西渗流和高速非达西渗流,达西定律等线性渗流模型将低估低速非达西渗流流速、高估高速非达西渗流流速。目前,岩土体非达西渗流分析研究手段包括试验法、数值模拟法和数学解析法,主要分析非达西渗流流态及其影响因素,并构建非达西渗流模型。其中空隙几何结构、剪切作用、渗流水压力等因素对岩土体非达西渗流特性影响显著。岩土体内部蜿蜒曲折的空隙结构导致渗流能量损失增大,剪切作用则使岩土体空隙结构处于较为复杂的变化状态,渗流水压力则直接增大水流惯性力,影响渗流流态,上述研究手段和因素分析是目前学者们针对岩土体非达西渗流特性的研究重点。由于试验条件、理论基础和计算机性能的局限性,渗透破坏阶段颗粒群迁移过程、岩土体多场耦合渗流分析、全域可视化渗流试验、大尺度多重介质渗流场计算等方面是未来岩土体非达西渗流分析值得关注的重点。

考虑非达西渗流的单层非均质地基固结分析

各类地质作用形成的非均质粘性土地基在工程界中广泛存在,同时非均质粘性土中渗流在低水力坡降下会出现非达西渗流的现象。但考虑非达西渗流的非均质粘性土地基一维固结理论尚不完善,应用达西定律计算低水力坡降情况下非均质粘性土中的渗流,会存在较大的误差。因此通过假定粘性土压缩模量随深度线性增加且渗透系数随深度指数减小来考虑地基的非均质性,并考虑实际中变荷载作用建立了非达西渗流下非均质地基固结模型。在此基础上,运用有限差分法获其数值解,并与相应的达西渗流解析解进行对比,验证了本文解的正确性;分别研究了非达西渗流参数m、i_1和非均质地基参数α、μ、p对土体孔压、地基沉降、地基平均固结度的影响。结果表明:m和i_1值越大,非均质地基中孔压消散越慢,土体固结速率也随之变慢;非均质粘性土地基参数的影响各异,α越大或μ越大、p越小的情况下,固结速率越快,且随着α值增大,非均质土体的最终沉降值越小;而m、i_1、μ、p对地基最终沉降量没有影响。非达西渗流和地基的非均质性都会影响土体的固结性状,故此两者在固结计算过程中不可忽略。

基于Darcy-Stokes耦合模型的多孔介质颗粒悬浮液等效黏性系数计算

颗粒悬浮液广泛存在于自然界和工程应用领域,其黏性特征对其流动行为有着重要的影响.本文基于Darcy-Stokes耦合模型,给出了低浓度多孔介质颗粒悬浮液的等效黏性系数的计算公式.首先求解了一个辅助问题,即低雷诺数条件下线性分布的流场中多孔介质球引起的扰动问题.自由流区域采用Stokes方程,多孔介质球内部区域采用Darcy方程,界面上则采用质量守恒条件、法向力平衡条件以及Beavers-Joseph条件或B eavers-Joseph-Saffman条件,使用待定系数法推导了自由流和多孔介质区域的流场的解析表达式.其次,依据流场解析解计算了外边界上由多孔介质球引起的附加热耗散率,确定了低浓度条件下特性黏度与达西数Da和Beavers-Joseph系数α_(BJ)的定量关系,结果发现:特性黏度随着α_(BJ)增加而增加,且α_(BJ)越大,特性黏度增加的幅度也越小;当10^(-6)≤Da≤10^(-4)时,特性黏度接近于2.5,与经典的爱因斯坦黏性公式相符.当10^(-4)≤Da≤10^(-1)时,特性黏度快速下降,因而等效黏性系数更加接近于流体本身的黏性.最后将本模型计算结果,与DarcyBrinkman模型结合界面剪切应力跳跃条件计算得到的结果进行对比,结果发现当Beavers-Joseph系数和界面应力跳跃系数之和为1时,两类模型在低达西数条件下的结果是几乎是一致的.

贯穿裂缝对水泥基复合材料渗透性能的影响

通过对于水灰比0.4和0.5无裂缝砂浆试件的渗透性试验,以及带不同数量贯穿裂缝的砂浆试件的渗透性试验,利用达西模型计算其渗透系数,并对其渗透系数进行比较,得知裂缝中的渗透系数远大于水泥基材中的渗透系数,裂缝对材料整体渗透系数的影响要远大于水灰比对渗透系数的影响,裂缝对于整体的渗透系数起决定性作用。并且渗透系数与裂缝数量呈现良好的线性关系。因此,裂缝是水流渗透的主要通道,在渗透中占主导地位。

Mechanism model for shale gas transport considering diffusion, adsorption/desorption and Darcy flow

To improve the understanding of the transport mechanism in shale gas reservoirs and build a theoretical basic for further researches on productivity evaluation and efficient exploitation, various gas transport mechanisms within a shale gas reservoir exploited by a horizontal well were thoroughly investigated, which took diffusion, adsorption/desorption and Darcy flow into account. The characteristics of diffusion in nano-scale pores in matrix and desorption on the matrix surface were both considered in the improved differential equations for seepage flow. By integrating the Langmuir isotherm desorption items into the new total dimensionless compression coefficient in matrix, the transport function and seepage flow could be formalized, simplified and consistent with the conventional form of diffusion equation. Furthermore, by utilizing the Laplace change and Sethfest inversion changes, the calculated results were obtained and further discussions indicated that transfer mechanisms were influenced by diffusion, adsorption/desorption. The research shows that when the matrix permeability is closed to magnitude of 10^-9D, the matrix flow only occurs near the surfacial matrix; as to the actual production, the central matrix blocks are barely involved in the production; the closer to the surface of matrix, the lower the pressure is and the more obvious the diffusion effect is; the behavior of adsorption/desorption can increase the matrix flow rate significantly and slow down the pressure of horizontal well obviously.

低渗非达西渗流运动方程研究

低速非达西渗流现象广泛存在于高放废物地质处置库及能源开发领域,描述这种非线性过程具有重要的意义.本文利用分数阶微积分方法对幂函数型、指数型两种常用的非线性运动方程进行了研究.首先从达西定律出发,通过拉普拉斯变换得到了与Hansbo幂函数型方程相一致的渗流运动方程.进而对Swartzendruber指数型方程进行研究,得到了分数阶导数意义下的Swartzendruber运动方程及其解析表达式.验证了在求导阶次为1的情况下,原Swartzendruber运动方程是分数阶Swartzendruber方程的一种特例.基于非饱和渗流实验数据,采用最小二乘法拟合获得了新运动方程中的相关参数,对参数变化趋势进行了分析.由曲线拟合结果可知,分数阶Swartzendruber方程精度较高,可以更好地描述非线性渗流过程.

Investigation of Barree-Conway non-Darcy flow effects on coalbed methane production

Coalbed gas non-Darcy flow has been observed in high permeable fracture systems,and some mathematical and numerical models have been proposed to study the effects of non-Darcy flow using Forchheimer non-Darcy model.However,experimental results show that the assumption of a constant Forchheimer factor may cause some limitations in using Forchheimer model to describe non-Darcy flow in porous media.In order to investigate the effects of non-Darcy flow on coalbed methane production,this work presents a more general coalbed gas non-Darcy flow model according to Barree-Conway equation,which could describe the entire range of relationships between flow velocity and pressure gradient from low to high flow velocity.An expanded mixed finite element method is introduced to solve the coalbed gas non-Darcy flow model,in which the gas pressure and velocity can be approximated simultaneously.Error estimate results indicate that pressure and velocity could achieve first-order convergence rate.Non-Darcy simulation results indicate that the non-Darcy effect is significant in the zone near the wellbore,and with the distance from the wellbore increasing,the non-Darcy effect becomes weak gradually.From simulation results,we have also found that the non-Darcy effect is more significant at a lower bottom-hole pressure,and the gas production from non-Darcy flow is lower than the production from Darcy flow under the same permeable condition.

Numerical Modeling of Shallow Water Table Behavior with Lisse Effect

Air entrapment is an important consideration in environments with shallow water tables and sandy soil, like the condition of highly conductive sandy soils and flat topography in Florida, USA. It causes water table rises in soils, which are significantly faster and higher than those in soils without air entrapment. Two numerical models, Integrated Hydrologic Model (IHM) and HYDRUS-1D (a single-phase, one-dimensional Richards′ equation model) were tested at an area of west central Florida to help further understanding the shallow water table behavior during a long term air entrapment. This investigation employed field data with two modeling approaches to quantify the variation of air pressurization values. It was found that the air pressurization effect was responsible at time up to 40 cm of water table rise being recorded by the observation well for these two models. The values of air pressurization calculated from IHM and HYDRUS-1D match the previously published values. Results also indicated that the two numerical models did not consider air entrapment effect (as the predictive parameters remain uncertain) and thus results of depth to water table from these models did not compare to the observations for these selected periods. Incorporating air entrapment in prediction models is critical to reproduce shallow water table observations.

SAR Image Coregistration Using Fringe Definition Detection

In order to overcome the limitation of cross correlation coregistration method for Synthetic Aperture Radar （SAR） interferometric pairs with low coherence, a new image coregistration algorithm based on Fringe Definition Detection （FDD） is presented in this paper. The Fourier transformation was utilized to obtain spectrum characteristics of interferometric fringes. The ratio between spectrum mean and peak was proposed as the evaluation index for identifying homologous pixels from interferometric images. The satellites ERS-1/2 C-band SAR acquisitions covering the Yangtze River plain delta, eastern China and ALOS/PALSAR L-band images over the Longmen Shan mountainous area, southwestern China were respectively employed in the experiment to validate the proposed coregistration method. The testing results suggested that the derived Digital Elevation Model （DEM） from FDD method had good agreement with that from the cross correlation method as well as the reference DEM at high coherence area. However, The FDD method achieved a totally improved topographic mapping accuracy by 24 percent in comparison to the cross correlation method. The FDD method also showed better robustness and achieved relatively higher performance for SAR image eoregistration in mountainous areas with low coherence.

Differentially expressed proteins on postoperative 3 days healing in rabbit Achilles tendon rupture model after early kinesitherapy

Objectives： Surgical repair of Achilles tendon （AT） rupture should immediately be followed by active tendon mobilization. The optimal time as to when the mobilization should begin is important yet controversial. Early kinesitherapy leads to reduced rehabilitation period. However, an insight into the detailed mechanism of this process has not been gained. Proteomic technique can be used to separate and purify the proteins by differential expression profile which is related to the function of different proteins, but research in the area of proteomic analysis of AT 3 days after repair has not been studied so far. Methods： Forty-seven New Zealand white rabbits were randomized into 3 groups. Group A （immobilization group, n=l 6） received postoperative cast immobilization; Group B （early motion group, n= 16） received early active motion treatments immediately following the repair of AT rupture from tenotomy. Another 15 rabbits served as control group （Group C）. The AT samples were prepared 3 days following the microsurgery. The proteins were separated employing two- dimensional polyacrylamide gel electrophoresis （2D-PAGE）. PDQuest software version 8.0 was used to identify differentially expressed proteins, followed by peptide mass fingerprint （PMF） and tandem mass spectrum analysis, using the National Center for Biotechnology Information （NCBI） protein database retrieval and then for bioinformatics analysis. Results： Amean of 446.33,436.33 and 462.67 protein spots on Achilles tendon samples of 13 rabbits in Group A, 14 rabbits in Group B and 13 rabbits in Group C were suc- cessfully detected in the 2D-PAGE. There were 40, 36 and 79 unique proteins in Groups A, B and C respectively. Some differentially expressed proteins were enzyme with the gel, matrix-assisted laser-desorption/ionization time-of-flight mass spectrometry （MALDI-TOF MS）. We successfully identified 9 and 11 different proteins in Groups A and B, such as GAPDH, phosphoglycerate kinase 1, pro-alpha-1 type 1 collagen, peroxiredoxin 1, alpha-l-antiproteinase E a-1 and MAD2L1 binding protein, etc. And some with the molecular chaperone, oxidative stress, energy metabolism, signal transduetion, coupled with the tendon cell expression and protein synthesis, proliferate, differentiate and are closely related to the AT healing. The GAPDH protein was further validated through Western blotting. It was indicated that some differentially expressed proteins were involved in various metabolism pathways and may play an important role in initial healing of AT rupture. Conclusion： Differentially expressed proteins in rabbit healing AT model may contribute to 3 days healing of AT rupture through a new mechanobiological mechanism due to the application of postoperative early kinesitherapy.