Geometric Optimization for Non-Thrombogenicity of a Centrifugal Blood Pump through Computational Fluid Dynamic Analysis(<Special Issue>Bioengineering)
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概要
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A monopivot magnetic suspension blood pump has been developed in our laboratory. The flow patterns within the pump should be carefully examined in order to prevent thrombogenesis, especially around the pivot bearing. Therefore, the effects of the pump geometry on the local flow were analyzed using computational fluid dynamics together with the experimental flow visualization. The engineering goal was to reduce the area of stagnation around the pivot in order to prevent thrombus formation. As a result, the stagnation area and the flow rate through the washout holes were found to be highly affected by the size and geometry of the washout holes. Secondary flow was revealed to form a jet-like wash against the pivot, thus preventing thrombus formation. The flow rate through the washout holes was estimated to be up to one fifth of the pump flow rate, depending on the cross-sectional areas of the washout holes. Furthermore, an anti-thrombogenic effect was attained by removing a small gap between the male and female pivots.
- 一般社団法人日本機械学会の論文
- 2004-12-15
著者
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Yamane Takashi
Institute For Human Science And Bioengineering Engineering National Institute Of Advanced Industrial
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Nishida Masahiro
Institute For Human Science And Bioengineering Engineering National Institute Of Advanced Industrial
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