Unicorn: Parallel adaptive finite element simulation of turbulent flow and fluid-structure interaction for deforming domains and complex geometry

Johan Hoffman; Johan Jansson; Rodrigo Vilela de Abreu; Niyazi Cem Degirmenci; Niclas Jansson; Kaspar Muller; Murtazo Nazarov; Jeannette Hiromi Spuhler

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Unicorn: Parallel adaptive finite element simulation of turbulent flow and fluid-structure interaction for deforming domains and complex geometry

机译：Unicorn：变形域和复杂几何形状的湍流和流固耦合的并行自适应有限元模拟

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摘要

We present a framework for adaptive finite element computation of turbulent flow and fluid-structure interaction, with focus on general algorithms that allow for complex geometry and deforming domains. We give basic models and finite element discretization methods, adaptive algorithms and strategies for efficient parallel implementation. To illustrate the capabilities of the computational framework, we show a number of application examples from aerodynamics, aero-acoustics, biomedicine and geophysics. The computational tools are free to download open source as Unicorn, and as a high performance branch of the finite element problem solving environment DOLFIN, both part of the FEniCS project.

机译：我们提出了一种用于湍流和流体-结构相互作用的自适应有限元计算的框架，重点是允许复杂几何形状和变形域的通用算法。我们给出了基本模型和有限元离散化方法，自适应算法和有效并行实现的策略。为了说明计算框架的功能，我们展示了来自空气动力学，航空声学，生物医学和地球物理学的许多应用示例。这些计算工具可作为Unicorn和有限元问题解决环境DOLFIN的高性能分支免费下载开源，这两个都是FEniCS项目的一部分。

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来源
《Computers & Fluids》 |2013年第null期|共10页
作者
Johan Hoffman; Johan Jansson; Rodrigo Vilela de Abreu; Niyazi Cem Degirmenci; Niclas Jansson; Kaspar Muller; Murtazo Nazarov; Jeannette Hiromi Spuhler;
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正文语种 eng
中图分类计算机的应用;
关键词
Unicorn; DOLFIN; FEniCS; Parallel adaptive finite element method; Open source software; Turbulent flow; Fluid-structure interaction; Complex geometry; Deforming domain;

机译：Unicorn;DOLFIN;FEniCS;并行自适应有限元方法;开源软件;湍流;流体-结构相互作用;复杂几何;变形域;

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专利

1. Unicorn: Parallel adaptive finite element simulation of turbulent flow and fluid-structure interaction for deforming domains and complex geometry [J] . Johan Hoffman, Johan Jansson, Rodrigo Vilela de Abreu, Computers & Fluids . 2013,第Null期

机译：Unicorn：变形域和复杂几何形状的湍流和流固耦合的并行自适应有限元模拟
2. A fictitious domain finite element method for simulations of fluid-structure interactions: The Navier-Stokes equations coupled with a moving solid [J] . Court Sebastien, Fournie Michel Journal of Fluids and Structures . 2015,第Null期

机译：模拟流体-结构相互作用的虚拟域有限元方法：Navier-Stokes方程与移动固体耦合
3. A stabilized finite element procedure for turbulent fluid-structure interaction using adaptive time-space refinement [J] . Paulo A. B. de Sampaio, Patricia H. Hallak, Alvaro L. G. A. Coutinho, International Journal for Numerical Methods in Fluids . 2004,第6期

机译：自适应时空优化的湍流流固耦合稳定有限元程序
4. Validation of SUPG Finite Element Simulations of Shockwave/Turbulent Boundary Layer Interactions in Hypersonic Flows [C] . Benjamin S. Kirk, Todd A. Oliver AIAA aerospace sciences meeting including the new horizons forum and aerospace exposition . 2013

机译：超音速流中冲击波/湍流边界层相互作用的SUPG有限元模拟的验证
5. Parallel 3D computation of unsteady wake flows with complex geometries and fluid-structure interactions. [D] . Osawa, Yasuo. 1999

机译：具有复杂几何形状和流固耦合的不稳定尾流的并行3D计算。
6. An adaptable parallel algorithm for the direct numerical simulation of incompressible turbulent flows using a Fourier spectral/hp element method and MPI virtual topologies [O] . A. Bolis, C.D. Cantwell, D. Moxey, -1

机译：使用傅里叶频谱/ hp元素方法和MPI虚拟拓扑对不可压缩湍流进行直接数值模拟的自适应并行算法
7. Unicorn: Parallel adaptive finite element simulation of turbulent flow and fluid–structure interaction for deforming domains and complex geometry [O] . Johan Hoffman, Johan Jansson, Rodrigo Vilela de Abreu, 2013

机译：Unicorn：湍流流动和流体 - 结构相互作用的平行自适应有限元模拟和复杂几何形状

Unicorn: Parallel adaptive finite element simulation of turbulent flow and fluid-structure interaction for deforming domains and complex geometry

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