Investigating the Use of Turbulence Models for Flow Investigations in a Positive Displacement Ventricular Assist Device

机译：调查湍流模型在阳性位移室辅助装置中使用流动调查

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Computational fluid dynamics (CFD) is applied to study the hemodynamics of flow inside a pulsatile pump left ventricular assist device (LVAD), in order to evaluate the hemolysis and thrombus formation. The positive displacement or pulsatile pump, which includes valves and a pusher plate (to mimic the natural heart), is the focus of this study. Turbulence is observed to play an important role in the accuracy of predicted levels of shear stress and strain rate, both of which are crucial in assessing the long term feasibility of the device. In order to obtain this aim, three turbulence models have been used: a standard Reynolds stress model (RSM), the shear stress transport (SST) Iomega, and Transition-SST, in addition to laminar flow i.e. "no model". An unstructured mesh was created for the simulation and the motion of the pusher plate was created via a dynamic mesh layering method. Valves were simulated in their full open position, to mimic the natural scenario. Results were allowed to reach a periodic state and were validated with available experimental data. The results indicated that the RSM gave the best agreement with the experimental data.

机译：计算流体动力学（CFD）被用于研究脉动泵内部流动的血流动力学左心室辅助装置（LVAD），以评价溶血和血栓形成。阳性位移或脉动泵包括阀门和推动板（以模仿天然心脏），是本研究的重点。观察到湍流在预测剪切应力和应变速率水平的准确性中起重要作用，这两者都在评估装置的长期可行性方面是至关重要的。为了获得此目的，除了层流之外，还使用了三种湍流模型：标准雷诺应力模型（RSM），剪切应力传输（SST）Iomega和Transition-SST。为模拟创建非结构化网格，并通过动态网格分层方法创建推动板的运动。阀门在完全打开位置模拟，以模仿自然情景。允许结果达到周期性状态，并用可用的实验数据验证。结果表明，RSM与实验数据发表了最佳协议。

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《International Federation for Medical and Biological Engineering European Conference》|2015年||共4页
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Mohammed G. Al-Azawy; Ali Turan; Alistair Revell;
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中图分类生物医学工程;
关键词
Ventricular assist device; pulsatile pump; Dynamic mesh; computational fluid dynamics; Turbulent flow.;

机译：室外辅助装置;脉动泵;动态网状;计算流体动力学;湍流。;

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1. Investigation of unsteady flow in a model of a ventricular assist device by numerical modelling and comparison with experiment. [J] . Konig CS, Clark C, Mokhtarzadeh Dehghan-MR Medical engineering & physics. . 1999,第1期

机译：通过数值模拟研究心室辅助装置模型中的非稳态流动，并与实验进行比较。
2. Experimental measurement and numerical modelling of dye washout for investigation of blood residence time in ventricular assist devices [J] . Molteni Alessandra, Masri Zubair P. H., Low Kenny W. Q., The international journal of artificial organs . 2018,第4期

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3. Risks and Benefits of Using a Commercially Available Ventricular Assist Device for Failing Fontan Cavopulmonary Support: A Modeling Investigation [J] . Farahmand Masoud, Kavarana Minoo N., Kung Ethan O. IEEE Transactions on Biomedical Engineering . 2020,第1期

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4. Investigating the Use of Turbulence Models for Flow Investigations in a Positive Displacement Ventricular Assist Device [C] . Mohammed G. Al-Azawy, Ali Turan, Alistair Revell International Federation for Medical and Biological Engineering European Conference . 2015

机译：调查湍流模型在阳性位移室辅助装置中使用流动调查
5. Part I. Inviscid, swirling flows and vortex breakdown. Part II. A numerical investigation of the Lundgren turbulence model. [D] . Buntine, James Douglas. 1994

机译：第一部分：无粘性，旋流和涡流破裂。第二部分Lundgren湍流模型的数值研究。
6. Reinventing the displacement left ventricular assist device in the continuous-flow era: TORVAD the first toroidal-flow left ventricular assist device [O] . Carlo R. Bartoli, Jeffrey R. Gohean, Richard W. Smalling 2021

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Investigating the Use of Turbulence Models for Flow Investigations in a Positive Displacement Ventricular Assist Device

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