Non-intrusive reduced order models for partitioned fluid–structure interactions

IF 3.4 2区工程技术 Q1 ENGINEERING, MECHANICAL Journal of Fluids and Structures Pub Date : 2024-06-20 DOI:10.1016/j.jfluidstructs.2024.104156

Tiba Azzeddine , Dairay Thibault , De Vuyst Florian , Mortazavi Iraj , Berro Ramirez Juan-Pedro

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Abstract

The main goal of this work is to develop a data-driven Reduced Order Model (ROM) strategy from high-fidelity simulation result data of a Full Order Model (FOM). The goal is to predict at lower computational cost the time evolution of solutions of Fluid–Structure Interaction (FSI) problems. For some FSI applications, the elastic solid FOM (often chosen as quasi-static) can take far more computational time than the fluid one. In this context, for the sake of performance one could only derive a ROM for the structure and try to achieve a partitioned FOM fluid solver coupled with a ROM solid one. In this paper, we present a data-driven partitioned ROM on two study cases: (i) a simplified 1D-1D FSI problem representing an axisymmetric elastic model of an arterial vessel, coupled with an incompressible fluid flow; (ii) an incompressible $2 D$ wake flow over a cylinder facing an elastic solid with two flaps. We evaluate the accuracy and performance of the proposed ROM-FOM strategy on these cases while investigating the effects of the model’s hyperparameters. We demonstrate a high prediction accuracy and significant speedup achievements using this strategy.

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分区流固相互作用的非侵入式降阶模型

这项工作的主要目标是根据全阶模型（FOM）的高保真模拟结果数据，开发一种数据驱动的降阶模型（ROM）策略。目标是以较低的计算成本预测流固耦合（FSI）问题解决方案的时间演化。在某些 FSI 应用中，弹性固体 FOM（通常选择准静态 FOM）所需的计算时间远远超过流体 FOM。在这种情况下，为了提高性能，我们只能推导出结构的 ROM，并尝试实现分区 FOM 流体求解器与 ROM 固体求解器的耦合。在本文中，我们针对两个研究案例提出了数据驱动的分区 ROM：(i) 一个简化的 1D-1D FSI 问题，代表动脉血管的轴对称弹性模型，与不可压缩流体流耦合；(ii) 一个不可压缩的 2D 尾流，流过一个面对两个瓣的弹性固体的圆柱体。我们评估了所提出的 ROM-FOM 策略在这些情况下的准确性和性能，同时研究了模型超参数的影响。我们证明了使用该策略可以获得很高的预测精度和显著的速度提升。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Fluids and Structures 工程技术-工程：机械

CiteScore

6.90

自引率

8.30%

发文量

173

审稿时长

65 days

期刊介绍： The Journal of Fluids and Structures serves as a focal point and a forum for the exchange of ideas, for the many kinds of specialists and practitioners concerned with fluid–structure interactions and the dynamics of systems related thereto, in any field. One of its aims is to foster the cross–fertilization of ideas, methods and techniques in the various disciplines involved. The journal publishes papers that present original and significant contributions on all aspects of the mechanical interactions between fluids and solids, regardless of scale.