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  • 标题:Investigation of hydraulic performance in an axial-flow blood pump with different guide vane outlet angle
  • 本地全文:下载
  • 作者:Xiaohu Sang ; Xiaojun Zhou
  • 期刊名称:Advances in Mechanical Engineering
  • 印刷版ISSN:1687-8140
  • 电子版ISSN:1687-8140
  • 出版年度:2017
  • 卷号:9
  • 期号:8
  • DOI:10.1177/1687814017715423
  • 语种:English
  • 出版社:Sage Publications Ltd.
  • 摘要:This article investigates the effect of the guide vane outlet angle on the hydraulic performance and pressure fluctuation of the blood pump. In this study, an implantable two-stage axial-flow blood pump with guide vanes was used as the research model, and the guide vane outlet angle β4 was designed to be 20°, 15°, 10°, and 5°. The whole flow field in the pump under different guide vane outlet angles was unsteady and simulated by commercial code FLUENT. The simulation results were validated by experimental results, which use Xanthan gum solutions with concentration of 0.6 wt.‰ as working fluid. The results indicate that the pump head and efficiency of the pump are the best when the guide vane outlet angle is 10°. Then, the effects of guide vane outlet angle on the pressure fluctuation of blood pump were analyzed. In one rotation period, all the pulsations of the pressure fluctuation are periodic and there are one large peak and one small peak; the decrease in the guide vane outlet angle β4 makes the internal flow in the pump more uniform, which would lead to higher head and efficiency of the pump. But if the β4 is too small, the flow passage of the guide vane will become too narrow, thus the flow velocity in the guide vane is extremely high that causes the guide vane unable to convert kinetic energy into pressure energy well, which implies more hydraulic loss in the pump. According to the simulation, the minimum pressure pulsation amplitude appears at β4 = 10° and the corresponding value is 0.0016, the decrease of which reaches as much as 18.8% of maximum pulsation amplitude 0.00197.
  • 关键词:Two-stage blood pump; guide vane outlet angle; non-Newtonian fluid; pressure fluctuation; characteristic analysis
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