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A Parallel Algorithm for Adaptive Local Refinement of Tetrahedral Meshes Using Bisection 被引量:31
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作者 Lin-Bo Zhang 《Numerical Mathematics(Theory,Methods and Applications)》 SCIE 2009年第1期65-89,共25页
Local mesh refinement is one of the key steps in the implementations of adaptive finite element methods. This paper presents a parallel algorithm for distributed memory parallel computers for adaptive local refinement... Local mesh refinement is one of the key steps in the implementations of adaptive finite element methods. This paper presents a parallel algorithm for distributed memory parallel computers for adaptive local refinement of tetrahedral meshes using bisection. This algorithm is used in PHG, Parallel Hierarchical Grid Chttp://lsec. cc. ac. cn/phg/), a toolbox under active development for parallel adaptive finite element solutions of partial differential equations. The algorithm proposed is characterized by allowing simukaneous refinement of submeshes to arbitrary levels before synchronization between submeshes and without the need of a central coordinator process for managing new vertices. Using the concept of canonical refinement, a simple proof of the independence of the resulting mesh on the mesh partitioning is given, which is useful in better understanding the behaviour of the biseetioning refinement procedure. 展开更多
关键词 adaptive refinement BISECTION tetrahedral mesh parallel algorithm MPI.
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A three-dimensional robust volume-of-fluid solver based on the adaptive mesh refinement 被引量:1
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作者 Xin Zhao 《Theoretical & Applied Mechanics Letters》 CSCD 2021年第6期370-374,共5页
The present study provides a three-dimensional volume-of-fluid method based on the adaptive mesh refinement technique.The projection method on the adaptive mesh is introduced for solving the incompressible Navier-Stok... The present study provides a three-dimensional volume-of-fluid method based on the adaptive mesh refinement technique.The projection method on the adaptive mesh is introduced for solving the incompressible Navier-Stokes equations.The octree structure mesh is employed to solve the flow velocities and the pressure.The developed solver is applied to simulate the deformation of the cubic droplet driven by the surface tension without the effect of the gravity.The numerical results well predict the shape evolution of the droplet. 展开更多
关键词 adaptive mesh refinement Volume of fluid method Surface tension Interfacial flow Projection method
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Two-Dimensional h-Version Adaptive Remeshing Refinement of FEM
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作者 梁迎春 郭太勇 +1 位作者 陈时锦 孙靖民 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 1996年第1期69-73,共5页
A new method for estimating the posterior error of linear triangular element is presented. According to the specified accuracy, the element size and node spacing function of adaptive h-version mesh refinement are pred... A new method for estimating the posterior error of linear triangular element is presented. According to the specified accuracy, the element size and node spacing function of adaptive h-version mesh refinement are predicted. The main domain is divided by the isolines of node spacing into subregions in which mesh regeneration is realized. This remeshing refinement process implements mesh subdivision and mesh de-refinement in onecycle. 展开更多
关键词 ss: FEM POSTERIOR error estimation adaptive h-version mesh refinement REmeshING refinement
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A Numerical Model for Simulating Two-Phase Flow with Adaptive Mesh Refinement
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作者 Yunxing Zhang Shan Ma +1 位作者 Kangping Liao Wenyang Duan 《Computer Modeling in Engineering & Sciences》 SCIE EI 2021年第7期43-64,共22页
In this study,a numerical model for simulating two-phase flow is developed.The Cartesian grid with Adaptive Mesh Refinement(AMR)is adopted to reduce the computational cost.An explicit projection method is used for the... In this study,a numerical model for simulating two-phase flow is developed.The Cartesian grid with Adaptive Mesh Refinement(AMR)is adopted to reduce the computational cost.An explicit projection method is used for the time integration and the Finite Difference Method(FDM)is applied on a staggered grid for the discretization of spatial derivatives.The Volume of Fluid(VOF)method with Piecewise-Linear Interface Calculation(PLIC)is extended to the AMR grid to capture the gas-water interface accurately.A coarse-fine interface treatment method is developed to preserve the flux conservation at the interfaces.Several two-dimensional(2D)and three-dimensional(3D)benchmark cases are carried out for the validation of the model.2D and 3D shear flow tests are conducted to validate the extension of the VOF method to the AMR grid.A 2D linear sloshing case is considered in which the model is proved to have 2nd-order accuracy in space.The efficiency of applying the AMR grid is discussed with a nonlinear sloshing problem.Finally,2D solitary wave past stage and 2D/3D dam break are simulated to demonstrate that the model is able to simulate violent interface problems. 展开更多
关键词 Two-phase flow adaptive mesh refinement VOF coarse-fine interface treatment
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MESH FREE ADAPTIVE ALGORITHM FOR SOLVING EULER EQUATIONS ON STRUCTURED GRID POINTS 被引量:1
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作者 马志华 陈红全 《Transactions of Nanjing University of Aeronautics and Astronautics》 EI 2005年第4期271-275,共5页
A complete mesh free adaptive algorithm (MFAA), with solution adaptation and geometric adaptation, is developed to improve the resolution of flow features and to replace traditional global refinement techniques in s... A complete mesh free adaptive algorithm (MFAA), with solution adaptation and geometric adaptation, is developed to improve the resolution of flow features and to replace traditional global refinement techniques in structured grids. Unnecessary redundant points and elements are avoided by using the mesh free local clouds refinement technology in shock influencing regions and regions near large curvature places on the boundary. Inviscid compressible flows over NACA0012 and RAE2822 airfoils are computed. Finally numerical results validate the accuracy of the above method. 展开更多
关键词 mesh free adaptive algorithm local refinement Euler equations
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Cavitation Evolution Around a Twist Hydrofoil by Large Eddy Simulation(LES)with Mesh Adaption
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作者 WANG Zhengdong LI Linmin +2 位作者 LI Xiaojun YANG Chunye ZHU Zuchao 《Journal of Ocean University of China》 SCIE CAS CSCD 2023年第3期627-636,共10页
The cavitating flow around a Delft Twist-11 hydrofoil is simulated using the large eddy simulation approach.The volume-of-fluid method incorporated with the Schnerr-Sauer cavitation model is utilized to track the wate... The cavitating flow around a Delft Twist-11 hydrofoil is simulated using the large eddy simulation approach.The volume-of-fluid method incorporated with the Schnerr-Sauer cavitation model is utilized to track the water-vapor interface.Adaptive mesh refinement(AMR)is also applied to improve the simulation accuracy automatically.Two refinement levels are conducted to verify the dominance of AMR in predicting cavitating flows.Results show that cavitation features,including the U-type structure of shedding clouds,are consistent with experimental observations.Even a coarse mesh can precisely capture the phase field without increasing the total cell number significantly using mesh adaption.The predicted shedding frequency agrees fairly well with the experimental data under refinement level 2.This study illustrates that AMR is a promising approach to achieve accurate simulations for multiscale cavitating flows within limited computational costs.Finally,the force element method is currently adopted to investigate the lift and drag fluctuations during the evolution of cavitation structure.The mechanisms of lift and drag fluctuations due to cavitation and the interaction between vorticity forces and cavitation are explicitly revealed. 展开更多
关键词 cavitating flow adaptive mesh refinement volume of fluid vorticity force force element method
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Two-Dimensional Euler Adaptive Mesh Method on Detonation 被引量:1
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作者 郝鹏程 冯其京 姚雯 《Journal of Beijing Institute of Technology》 EI CAS 2009年第2期141-145,共5页
The adaptive mesh refinement (AMR) method is applied in the 2-D Euler multi-component elasticplastic hydrodynamics code (MEPH2Y). It is applied on detonation. Firstly, the AMR method is described, including a cons... The adaptive mesh refinement (AMR) method is applied in the 2-D Euler multi-component elasticplastic hydrodynamics code (MEPH2Y). It is applied on detonation. Firstly, the AMR method is described, including a conservative spatial interpolation, the time integration methodology with the adapitve time increment and an adaptive computational region method. The advantage of AMR technique is exhibited by numerical examples, including the 1-D C-J detonation and the 2-D implosion ignited from a single point. Results show that AMR can promote the computational efficiency, keeping the accuracy in interesting regions. 展开更多
关键词 adaptive mesh refinement (AMR) DETONATION two-dimension EULER numerical simulation
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Simulation of shock-induced instability using an essentially conservative adaptive CE/SE method 被引量:1
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作者 付峥 刘凯欣 罗宁 《Chinese Physics B》 SCIE EI CAS CSCD 2014年第2期29-33,共5页
An essentially conservative adaptive space time conservation element and solution element (CE/SE) method is pro- posed for the effective simulation of shock-induced instability with low computational cost. Its imple... An essentially conservative adaptive space time conservation element and solution element (CE/SE) method is pro- posed for the effective simulation of shock-induced instability with low computational cost. Its implementation is based on redefined conservation elements (CEs) and solution elements (SEs), optimized interpolations and a Courant number insensitive CE/SE scheme. This approach is used in two applications, the Woodward double Mach reflection and a two- component Richtmyer-Meshkov instability experiment. This scheme reveals the essential features of the investigated cases, captures small unstable structures, and yields a solution that is consistent with the results from experiments or other high order methods. 展开更多
关键词 CE/SE method shock-induced instability adaptive mesh refinement
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Adaptive thermo-fluid moving boundary computations for interfacial dynamics
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作者 Chih-Kuang Kuan Jaeheon Sim Wei Shyy 《Acta Mechanica Sinica》 SCIE EI CAS CSCD 2012年第4期999-1021,共23页
In this study, we present adaptive moving boundary computation technique with parallel implementation on a distributed memory multi-processor system for large scale thermo-fluid and interfacial flow computations. The ... In this study, we present adaptive moving boundary computation technique with parallel implementation on a distributed memory multi-processor system for large scale thermo-fluid and interfacial flow computations. The solver utilizes Eulerian-Lagrangian method to track moving (Lagrangian) interfaces explicitly on the stationary (Eulerian) Cartesian grid where the flow fields are computed. We address the domain decomposition strategies of Eulerian- Lagrangian method by illustrating its intricate complexity of the computation involved on two different spaces inter- actively and consequently, and then propose a trade-off ap- proach aiming for parallel scalability. Spatial domain decomposition is adopted for both Eulerian and Lagrangian do- main due to easy load balancing and data locality for mini- mum communication between processors. In addition, parallel cell-based unstructured adaptive mesh refinement (AMR) technique is implemented for the flexible local refinement and even-distributed computational workload among processors. Selected cases are presented to highlight the computa- tional capabilities, including Faraday type interfacial waves with capillary and gravitational forcing, flows around varied geometric configurations and induced by boundary conditions and/or body forces, and thermo-fluid dynamics with phase change. With the aid of the present techniques, large scale challenging moving boundary problems can be effectively addressed. 展开更多
关键词 Moving boundary Eulerian-Lagrangian method Parallel adaptive mesh refinement
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An Adaptive Nonhydrostatic Atmospheric Dynamical Core Using a Multi-Moment Constrained Finite Volume Method
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作者 Pei HUANG Chungang CHEN +2 位作者 Xingliang LI Xueshun SHEN Feng XIAO 《Advances in Atmospheric Sciences》 SCIE CAS CSCD 2022年第3期487-501,共15页
An adaptive 2 D nonhydrostatic dynamical core is proposed by using the multi-moment constrained finite-volume(MCV) scheme and the Berger-Oliger adaptive mesh refinement(AMR) algorithm. The MCV scheme takes several poi... An adaptive 2 D nonhydrostatic dynamical core is proposed by using the multi-moment constrained finite-volume(MCV) scheme and the Berger-Oliger adaptive mesh refinement(AMR) algorithm. The MCV scheme takes several pointwise values within each computational cell as the predicted variables to build high-order schemes based on single-cell reconstruction. Two types of moments, such as the volume-integrated average(VIA) and point value(PV), are defined as constraint conditions to derive the updating formulations of the unknowns, and the constraint condition on VIA guarantees the rigorous conservation of the proposed model. In this study, the MCV scheme is implemented on a height-based, terrainfollowing grid with variable resolution to solve the nonhydrostatic governing equations of atmospheric dynamics. The AMR grid of Berger-Oliger consists of several groups of blocks with different resolutions, where the MCV model developed on a fixed structured mesh can be used directly. Numerical formulations are designed to implement the coarsefine interpolation and the flux correction for properly exchanging the solution information among different blocks. Widely used benchmark tests are carried out to evaluate the proposed model. The numerical experiments on uniform and AMR grids indicate that the adaptive model has promising potential for improving computational efficiency without losing accuracy. 展开更多
关键词 adaptive mesh refinement multi-moment constrained finite-volume method nonhydrostatic model dynamical core high-order methods
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Adaptive Finite Element Method for Steady Convection-Diffusion Equation
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作者 Gelaw Temesgen Mekuria Jakkula Anand Rao 《American Journal of Computational Mathematics》 2016年第3期275-285,共12页
This paper examines the numerical solution of the convection-diffusion equation in 2-D. The solution of this equation possesses singularities in the form of boundary or interior layers due to non-smooth boundary condi... This paper examines the numerical solution of the convection-diffusion equation in 2-D. The solution of this equation possesses singularities in the form of boundary or interior layers due to non-smooth boundary conditions. To overcome such singularities arising from these critical regions, the adaptive finite element method is employed. This scheme is based on the streamline diffusion method combined with Neumann-type posteriori estimator. The effectiveness of this approach is illustrated by different examples with several numerical experiments. 展开更多
关键词 Convection-Diffusion Problem Streamline Diffusion Finite Element Method Boundary and Interior Layers A Posteriori Error Estimators adaptive mesh refinement
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Projection-Based Dimensional Reduction of Adaptively Refined Nonlinear Models
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作者 Clayton Little Charbel Farhat 《Communications on Applied Mathematics and Computation》 EI 2024年第3期1779-1800,共22页
Adaptive mesh refinement (AMR) is fairly practiced in the context of high-dimensional, mesh-based computational models. However, it is in its infancy in that of low-dimensional, generalized-coordinate-based computatio... Adaptive mesh refinement (AMR) is fairly practiced in the context of high-dimensional, mesh-based computational models. However, it is in its infancy in that of low-dimensional, generalized-coordinate-based computational models such as projection-based reduced-order models. This paper presents a complete framework for projection-based model order reduction (PMOR) of nonlinear problems in the presence of AMR that builds on elements from existing methods and augments them with critical new contributions. In particular, it proposes an analytical algorithm for computing a pseudo-meshless inner product between adapted solution snapshots for the purpose of clustering and PMOR. It exploits hyperreduction—specifically, the energy-conserving sampling and weighting hyperreduction method—to deliver for nonlinear and/or parametric problems the desired computational gains. Most importantly, the proposed framework for PMOR in the presence of AMR capitalizes on the concept of state-local reduced-order bases to make the most of the notion of a supermesh, while achieving computational tractability. Its features are illustrated with CFD applications grounded in AMR and its significance is demonstrated by the reported wall-clock speedup factors. 展开更多
关键词 adaptive mesh refinement(AMR) Computational fluid dynamics Energy-conserving sampling and weighting(ECSW) Model order reduction Reduced-order model Supermesh
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能群独立的中子输运非结构网格自适应加密
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作者 郭海兵 阮政霖 马纪敏 《原子能科学技术》 EI CAS CSCD 北大核心 2024年第7期1495-1504,共10页
为兼顾中子输运的模拟精度和计算效率,对网格进行自适应加密和区域分解并行是有效技术途径。通常各能群的中子通量密度分布有较大差异,采用统一的网格不能最佳匹配各群通量密度的空间变化,只能全局加密网格或损失精度。本文通过对各能... 为兼顾中子输运的模拟精度和计算效率,对网格进行自适应加密和区域分解并行是有效技术途径。通常各能群的中子通量密度分布有较大差异,采用统一的网格不能最佳匹配各群通量密度的空间变化,只能全局加密网格或损失精度。本文通过对各能群中子通量密度分别进行后验误差估计,开展能群独立的局部网格加密,获得与各能群的中子通量密度分别匹配的多组非结构网格,即基于共同父网格(粗网格)的多组独立子网格(细网格),进而开发了在这种层次化父-子网格上的多群中子输运模拟耦合算法,通过连续的多轮次自适应加密,实现了不受初始网格分辨率影响的高精度、高效率求解。基于该网格方法建立了间断有限元输运程序ENTER-Ⅱ,并借助开源算法库DEAL.Ⅱ实现了区域分解并行。初步验证表明,计算结果符合良好,时间效率有明显提升。 展开更多
关键词 中子输运 间断有限元 非结构网格 自适应加密 父-子网格 区域分解
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交错断层四面体自适应网格分级细化研究
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作者 陈应显 朱喆 +1 位作者 马慧茹 富颉鹏 《工矿自动化》 CSCD 北大核心 2024年第9期153-160,共8页
目前四面体自适应网格细化技术多集中于简单层状地质体的三维重构与表达分析,对结构复杂、数据不连续的含交错断层等地质体进行自适应网格细化时,易出现过度细化,导致断层区域的网格结构受到影响。为了提高含复杂断层四面体网格模型的精... 目前四面体自适应网格细化技术多集中于简单层状地质体的三维重构与表达分析,对结构复杂、数据不连续的含交错断层等地质体进行自适应网格细化时,易出现过度细化,导致断层区域的网格结构受到影响。为了提高含复杂断层四面体网格模型的精度,提出一种适用于交错断层的四面体自适应网格分级细化方法。首先,根据断层影响范围公式,自适应确定断层网格附近的细化范围;其次,构建四面体和四面体边的分级细分公式,确定细化范围内的四面体和四面体边的分级;然后,针对四面体网格细分时出现的多种情况,通过对边的升级处理,将细分的8种类型统一为3种类型;最后,在细化范围内,通过新增加顶点和原顶点重新连接四面体,改变网格的单元尺寸,生成高质量的网格模型。以内蒙古自治区某含交错断层露天煤矿的四面体网格模型为例,使用三维网格质量评估算法及FLAC3D模拟软件分析细化前后的网格模型,结果表明:细化后的网格模型失真值从0.3317降低到0.3061,表明网格的质量得到提升;在相同参数下,未细化模型的最大位移为1.16 m,稳定性系数为1.27,分级细化后模型的最大位移为1.29 m,稳定性系数为1.23;细化后模型的位移云图处于断层处,且能够体现断层分布特征和断层对边坡的影响规律,而未细化模型的位移云图的位置偏离断层中心,断层对边坡的影响效果不明显。 展开更多
关键词 交错断层 自适应网格细化 四面体 四面体边 自适应分级细化 网格建模
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基于计算机辅助的船舶复杂曲面结构设计
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作者 杨维 《舰船科学技术》 北大核心 2024年第13期67-70,共4页
本文研究计算机辅助技术在船舶复杂曲面结构设计中的应用,分析复杂曲面结构设计的特点,阐述复杂曲面结构设计的流程,重点研究基于计算机辅助的曲面展开技术,对比B样条方法和NURBS法在复杂曲线和曲面表达中的应用效果,提出一种自适应网... 本文研究计算机辅助技术在船舶复杂曲面结构设计中的应用,分析复杂曲面结构设计的特点,阐述复杂曲面结构设计的流程,重点研究基于计算机辅助的曲面展开技术,对比B样条方法和NURBS法在复杂曲线和曲面表达中的应用效果,提出一种自适应网格优化算法的实现方法,并和传统网格划分进行对比。结果表明,自适应网格划分加强了复杂曲面结构的细节表达,有效降低了结构的设计误差。 展开更多
关键词 复杂曲面 计算机辅助 自适应网格划分 NURBS
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High-order compact finite volume methods on unstructured grids with adaptive mesh refinement for solving inviscid and viscous flows 被引量:4
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作者 Jianhua PAN Qian WANG +1 位作者 Yusi ZHANG Yuxin REN 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2018年第9期1829-1841,共13页
In the present paper, high-order finite volume schemes on unstructured grids developed in our previous papers are extended to solve three-dimensional inviscid and viscous flows. The highorder variational reconstructio... In the present paper, high-order finite volume schemes on unstructured grids developed in our previous papers are extended to solve three-dimensional inviscid and viscous flows. The highorder variational reconstruction technique in terms of compact stencil is improved to reduce local condition numbers. To further improve the efficiency of computation, the adaptive mesh refinement technique is implemented in the framework of high-order finite volume methods. Mesh refinement and coarsening criteria are chosen to be the indicators for certain flow structures. One important challenge of the adaptive mesh refinement technique on unstructured grids is the dynamic load balancing in parallel computation. To solve this problem, the open-source library p4 est based on the forest of octrees is adopted. Several two-and three-dimensional test cases are computed to verify the accuracy and robustness of the proposed numerical schemes. 展开更多
关键词 adaptive mesh refinement Compact stencil High-order finite volume scheme Unstructured grids Variational reconstruction
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Large eddy simulation of cavitating flows with dynamic adaptive mesh refinement using OpenFOAM 被引量:5
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作者 Lin-min Li Dai-qing Hu +4 位作者 Yu-cheng Liu Bi-tao Wang Chen Shi Jun-jie Shi Chang Xu 《Journal of Hydrodynamics》 SCIE EI CSCD 2020年第2期398-409,共12页
Cavitating flows are dominated by large gradients of physical properties and quantities containing complicated interfacial structures and lots of multi-scale eddies that need to be accurately characterized using a hig... Cavitating flows are dominated by large gradients of physical properties and quantities containing complicated interfacial structures and lots of multi-scale eddies that need to be accurately characterized using a high-resolution mesh.The present work,within OpenFOAM,proposes an effective modeling framework using the large eddy simulation(LES)approach along with the volume of fluid(VOF)method to simulate the two-phase flow system and applies the Schnerr-Sauer model to calculate the mass-transfer rate between water and vapor.The adaptive mesh refinement(AMR)which is a powerful tool for allocating high-resolution grids only to the region of the greatest concern is adopted for improving the solution of interfacial structures.The effect of grid size is firstly investigated and the time-averaged quantities are verified against the experimental data,and then simulations of cavitating flows are successfully achieved to precisely characterize the features of cavitation with automatically and dynamically refining the mesh.As the refinement only takes place in the interfacial region,high-precision simulations can be achieved with limited computational resources,and the method shows promising prospects for modeling of the multi-scale,time-critical and computationally intensive cavitating flows. 展开更多
关键词 Cavitating flows large eddy simulation(LES) MULTI-SCALE adaptive mesh refinement(AMR) OPENFOAM
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Adaptive mesh refinement immersed boundary method for simulations of laminar flows past a moving thin elastic structure 被引量:2
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作者 Mohammed Suleman Aldlemy Mohammad Rasidi Rasani +1 位作者 AKAriffin TMYSTuan Ya 《Journal of Hydrodynamics》 SCIE EI CSCD 2020年第1期148-160,共13页
One of the critical issues in numerical simulation of fluid-structure interaction problems is inaccuracy of the solutions,especially for flows past a stationary thin elastic structure where large deformations occur.Hi... One of the critical issues in numerical simulation of fluid-structure interaction problems is inaccuracy of the solutions,especially for flows past a stationary thin elastic structure where large deformations occur.High resolution is required to capture the flow characteristics near the fluid-structure interface to enhance accuracy of the solutions within proximity of the thin deformable body.Hence,in this work,an algorithm is developed to simulate fluid-structure interactions of moving deformable structures with very thin thicknesses.In this algorithm,adaptive mesh refinement(AMR)is integrated with immersed boundary finite element method(IBFEM)with two-stage pressure-velocity corrections.Despite successive interpolation of the flow field by IBM,the governing equations were solved using a fixed structured mesh,which significantly reduces the computational time associated with mesh reconstruction.The cut-cell IBM is used to predict the body forces while FEM is used to predict deformation of the thin elastic structure in order to integrate the motions of the fluid and solid at the interface.AMR is used to discretize the governing equations and obtain solutions that efficiently capture the thin boundary layer at the fluid-solid interface.The AMR-IBFEM algorithm is first verified by comparing the drag coefficient,lift coefficient,and Strouhal number for a benchmark case(laminar flow past a circular cylinder at Re=100)and the results showed good agreement with those of other researchers.The algorithm is then used to simulate 2-D laminar flows past stationary and moving thin structures positioned perpendicular to the freestream direction.The results also showed good agreement with those obtained from the arbitrary Lagrangian-Eulerian(ALE)algorithm for elastic thin boundaries.It is concluded that the AMR-IBFEM algorithm is capable of predicting the characteristics of laminar flow past an elastic structure with acceptable accuracy(error of-0.02%)with only-1%of the computational time for simulations with full mesh refinement. 展开更多
关键词 Immersed boundary method finite element method adaptive mesh refinement two-stage velocity-pressure correction thin deformable structures
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基于网格自适应加密策略的隧道稳定性三维极限分析下限有限元法研究 被引量:1
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作者 孙锐 阳军生 +1 位作者 张庆贺 杨峰 《岩土力学》 EI CAS CSCD 北大核心 2024年第4期1256-1264,共9页
网格分布形式对三维极限分析下限有限元法的计算精度影响较大,为获取精确下限解,通常需对破坏区域进行密集网格划分,从而极易导致计算规模过大,求解效率低下。针对上述问题,提出一种基于单元应力的三维极限分析下限有限元“后验”网格... 网格分布形式对三维极限分析下限有限元法的计算精度影响较大,为获取精确下限解,通常需对破坏区域进行密集网格划分,从而极易导致计算规模过大,求解效率低下。针对上述问题,提出一种基于单元应力的三维极限分析下限有限元“后验”网格自适应加密策略。首先,构建基于Mohr-Coulomb(M-C)准则和半定规划技术的三维极限分析下限有限元模型,避免了屈服准则的近似处理。其次,引入基于M-C准则的网格自适应加密策略,通过判断各个单元应力接近屈服的程度,确定加密点的坐标。然后,将加密点与原先节点组合构成新的点集,并重新划分网格,建立新的下限有限元计算模型。最后,利用所提方法研究隧道稳定性问题,表明利用所提网格自适应加密策略能够以较少单元精确模拟破坏区域应力分布,从而获取高精度下限解。 展开更多
关键词 隧道稳定性 三维极限分析 下限有限元法 MOHR-COULOMB准则 网格自适应加密
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An Adaptive Mesh Refinement Strategy for Immersed Boundary/Interface Methods
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作者 Zhilin Li Peng Song 《Communications in Computational Physics》 SCIE 2012年第7期515-527,共13页
An adaptive mesh refinement strategy is proposed in this paper for the Immersed Boundary and Immersed Interface methods for two-dimensional elliptic interface problems involving singular sources.The interface is repre... An adaptive mesh refinement strategy is proposed in this paper for the Immersed Boundary and Immersed Interface methods for two-dimensional elliptic interface problems involving singular sources.The interface is represented by the zero level set of a Lipschitz functionϕ(x,y).Our adaptive mesh refinement is done within a small tube of|ϕ(x,y)|δwith finer Cartesian meshes.The discrete linear system of equations is solved by a multigrid solver.The AMR methods could obtain solutions with accuracy that is similar to those on a uniform fine grid by distributing the mesh more economically,therefore,reduce the size of the linear system of the equations.Numerical examples presented show the efficiency of the grid refinement strategy. 展开更多
关键词 adaptive mesh refinement immersed boundary method immersed interface method elliptic interface problem Cartesian grid method level set representation singular sources
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