NIU Di,ZHU Mingxin,FENG Haiquan,WANG Kun.Hemodynamic Analysis on Meglev Left Ventricular Assist Device of a New Generation[J].Journal of medical biomechanics,2019,34(5):468-472
新一代左心室磁悬浮辅助泵血流动力学分析
Hemodynamic Analysis on Meglev Left Ventricular Assist Device of a New Generation
Received:September 19, 2018  Revised:October 25, 2018
DOI:
Chinese key words:  左心室辅助泵  磁悬浮  计算流体动力学  壁面剪切应力
English Key words:left ventricular assist device (LVAD)  meglev  computational fluid dynamics (CFD)  wall shear stress (WSS)
Fund project:国家自然科学基金项目(51565045)
Author NameAffiliation
NIU Di College of Mechanical Engineering, Inner Mongolia University of Technology, 
ZHU Mingxin College of Mechanical Engineering, Inner Mongolia University of Technology, 
FENG Haiquan College of Mechanical Engineering, Inner Mongolia University of Technology, 
WANG Kun College of Mechanical Engineering, Inner Mongolia University of Technology, 
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Chinese abstract:
      目的 降低左心室磁悬浮辅助泵的血栓形成概率和溶血风险,提升辅助泵供血效率。方法 利用计算流体动力学方法 ,研究泵体出口直径、出口角度、出口与泵内壁面连接处圆角尺寸和转子与壳体间间隙对流场的影响,优化泵体内部结构,改善流体动力学性能。结果 新一代左心室磁悬浮辅助泵与上一代辅助泵相比,泵内壁面最大壁面剪切应力(wall shear stress, WSS)降低约23.6%,辅助泵内转子壁面最大WSS降低约47.4%,WSS>200 Pa区域面积降低约76.2%,出口流量提升约14.4%。结论 新一代左心室磁悬浮辅助泵内部血流流迹趋于平缓,血流流体动力学性能有综合提升。研究结果为今后左心室磁悬浮辅助泵的优化设计及相关实验研究提供参考依据。
English abstract:
      Objective To reduce the thrombosis probability and hemolysis risk of the meglev left ventricular assist device (LVAD), so as to increase the efficiency of blood supply. Methods The influences of the pump outlet diameter, exit angle, fillet size between the outlet and the inner wall of the pump, as well as gap between the rotor and the shell on internal flow field of the pump were studied by using the computational fluid dynamics (CFD) method, so as to optimize the internal structure and improve the hydrodynamic performance of the pump. Results Compared with pump of the previous generation, the maximum wall shear stress (WSS) of the pump inner wall, the maximum WSS of the pump rotor, the area with WSS >200 Pa were reduced by 23.6%, 47.4%, 76.2%, respectively, while the outlet flow was increased by 14.4%. Conclusions For the meglev LVAD of the new generation, its internal blood flow tended to be smooth, and the hemodynamic performance of blood flow was improved comprehensively. The research findings provide references for optimization design of the meglev LVAD and related experimental researches in the future.
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