• Title/Summary/Keyword: Plusatile Flow

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A Numerical Study on Heat Transfer Enhancement by Pulsatile Flow in a Plate Heat Exchanger (맥동유동에 의한 판형열교환기의 열전달 성능 향상에 관한 수치연구)

  • Chin Sang-Mun;Park Jong-Tack;Hur Nahmkeon;Kang Byung Ha
    • 한국전산유체공학회:학술대회논문집
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    • 2005.04a
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    • pp.85-90
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    • 2005
  • The heat transfer enhancement by pulsatile flow in plate heat exchanger has been investigated numerically in the present study. The numerical study was performed ill the range of the Strouhal number from 0.04 to 2 and the Reynolds number from 370 to 730. The results showed that the pulsatile flow produces resonating vortex shedding at the groove sharp edges and a strong transient vortex rotation within the grooved channels. As a result, the mixing between the trapped volume in the grooved cavity and the main stream was enhanced. Good agreements between the predictions and measured data are obtained for the optimum frequency of pulsation and corresponding heat transfer enhancement

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Influence of the Anastomosis Angle Variation on Flow Features and Wall Shear Stress of an Artery (관상동맥 우회로 관의 문합각도의 변화가 유동과 벽 전단력에 미치는 영향)

  • Kim H. M.
    • Journal of computational fluids engineering
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    • v.9 no.4
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    • pp.34-40
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    • 2004
  • It is known that the non-planar model of bypass is more profitable to suppress the development of intimal hyperplasia that tends to occur preferentially in regions of low time averaged shear stress and rapid temporal changes in wall shear stress. In this study it was numerically simulated the blood flow in an coronary artery grafted by artificial bypass to determine the flow characteristic variations due to the anastomosis angle changing. 5 different non-planar anastomosis angle models such as 45°, 60°, 90°, 120° and 135° were considered. When the anastomosis angle is higher, the backward flow region is spatially extended near the downstream region of the anastomosis because of the development of horseshoes vortex. For the case of the nan-planar 45° and 60° of anastomosis, the area of low-OSI zone was decreased by 26% and 13% respectively and the time averaged wall shear stress was increased by more than 55% as compared with 45° of planar model. However, both of the area of the low-OSI zone and the time averaged wall shear stress of 90°, 120° model were significantly increased.