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Application of a strong FSI coupling scheme for the numerical simulation of bileaflet mechanical heart valve dynamics: study of wall shear stress on the valve leaflets

机译：强FsI耦合方案在双叶片机械心脏瓣膜动力学数值模拟中的应用：瓣膜瓣上的壁面剪切应力研究

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One of the major challenges in the design of Bileaflet Mechanical Heart Valves (BMHVs) is reduction of the blood damage generated by non-physiological blood flow. Numerical simulations provide relevant insights into the (fluid) dynamics of the BMHV and are used for design optimisation. In this paper, a strong coupling algorithm for the partitioned Fluid-Structure Interaction (FSI) simulation of a BMHV is presented. The convergence of the coupling iterations between the flow solver and the leaflet motion solver is accelerated by using a numerically calculated Jacobian with the derivatives of the pressure and viscous moments acting on the leaflets with respect to the leaflet accelerations. The developed algorithm is used to simulate the dynamics of a 3D BMHV in three different geometries, allowing an analysis of the solution process. Moreover, the leaflet kinematics and the general flow field are discussed, with special focus on the shear stresses on the valve leaflets.

机译：Bileaflet机械心脏瓣膜（BMHV）设计的主要挑战之一是如何减少非生理性血液流动所产生的血液损害。数值模拟为BMHV的（流体）动力学提供了相关的见解，并用于优化设计。本文提出了一种用于BMHV的分区流体-结构相互作用（FSI）模拟的强耦合算法。流量求解器和小叶运动求解器之间的耦合迭代的收敛通过使用数值计算的雅可比矩阵（Jacobian）进行加速，其中Jacobian具有作用在小叶上的压力和粘性矩相对于小叶加速度的导数。所开发的算法用于在三种不同的几何形状中模拟3D BMHV的动力学，从而可以分析求解过程。此外，还讨论了小叶的运动学和一般的流场，特别关注瓣膜小叶上的剪切应力。

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Annerel Sebastiaan; Degroote Joris; Vierendeels Jan; Claessens Tom; Van Ransbeeck Peter; Dahl Sigrid Kaarstad; Skallerud Bjorn; Hellevik Leif Rune; Segers Patrick; Verdonck Pascal;
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年度 2012
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正文语种 eng
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1. Application of a strong FSI coupling scheme for the numerical simulation of bileaflet mechanical heart valve dynamics: study of wall shear stress on the valve leaflets [J] . Sebastiaan Annerel, Joris Degroote, Jan Vierendeels, Progress in computational fluid dynamics . 2012,第2a3期

机译：强FSI耦合方案在双叶机械心脏瓣膜动力学数值模拟中的应用：瓣膜小叶壁剪切应力的研究
2. Computational fluid dynamics simulation of blood flow profile and shear stresses in bileaflet mechanical heart valve by using monolithic approach [J] . Kadhim Saleem Khalefa, Nasif Mohammad Shakir, Al-Kayiem Hussain H., Simulation . 2018,第2期

机译：双片机械心脏瓣膜血流剖面和切应力的计算流体动力学模拟
3. Numerical simulation of instantaneous backflow through central clearance of bileaflet mechanical heart valves at closure: shear stress and pressure fields within clearance. [J] . Lee CS, Chandran KB Medical and Biological Engineering and Computing: Journal of the International Federation for Medical and Biological Engineering . 1995,第3期

机译：双叶机械心脏瓣膜在闭合时通过中心间隙的瞬时回流的数值模拟：间隙内的剪切应力和压力场。
4. SIMULATIONS OF FLOW THROUGH BILEAFLET MECHANICAL HEART VALVES WITH ASYMMETRIC LEAFLET MOTION [C] . B. Min Yun, Lakshmi P. Dasi, Cyrus K. Aidun, ASME summer bioengineering conference;SBC2012 . 2012

机译：非对称叶片运动通过双叶片机械心阀的流动模拟
5. Fluid-structure interaction simulation of bileaflet and monoleaflet mechanical heart valve flow dynamics. [D] . Kimiaghalam, Morteza. 2013

机译：双叶和单叶机械心脏瓣膜流动动力学的流固耦合模拟。
6. Computational Simulations of Flow Dynamics and Blood Damage Through a Bileaflet Mechanical Heart Valve Scaled to Pediatric Size and Flow [O] . B. Min Yun, Doff B. McElhinney, Shiva Arjunon, -1

机译：通过按小儿大小和流量缩放的Bileaflet机械心脏瓣膜进行血流动力学和血液损害的计算模拟
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Application of a strong FSI coupling scheme for the numerical simulation of bileaflet mechanical heart valve dynamics: study of wall shear stress on the valve leaflets

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