• Title/Summary/Keyword: 재순환 보텍스

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Cavity as a New Passive Device for Reduction of Skin Friction and Heat Transfer (새로운 수동제어소자인 공동을 이용한 마찰력과 열전달 감소에 관한 연구)

  • Hahn Seonghyeon;Choi Haecheon
    • Proceedings of the KSME Conference
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    • 2002.08a
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    • pp.463-466
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    • 2002
  • In order to examine the possibility of using a cavity as a passive device for reduction of skin friction and heat transfer, an intensive parametric study over a broad range of the cavity depth and length at different Reynolds numbers is performed for both laminar and turbulent boundary layers in the present study. Direct and large eddy simulation techniques are used for turbulent boundary layers at low and moderate Reynolds numbers, respectively. for both laminar and turbulent boundary layers over a cavity, a flow oscillation occurs due to the shear layer instability when the cavity depth and length are sufficiently large and it plays an important role in the determination of drag and heat-transfer increase or decrease. For a cavity sufficiently small to suppress the flow oscillation, both the total drag and heat transfer are reduced. Therefore, the applicability of a cavity as a passive device for reduction of drag and heat transfer is fully confirmed in the present study. Scaling based on the wall shear rate of the incoming boundary layer is also proposed and it is found to be valid in steady flow over a cavity.

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Influence of Cardiac Contraction and its Phase Angle with Coronary Blood flow on Atherosclerosis of Coronary Artery (심장의 수축운동과 관상동맥 혈류와의 위상차가 관상동맥 혈관의 동맥경화 민감성에 미치는 영향)

  • 김민철;이종선;김찬중;권혁문
    • Journal of Biomedical Engineering Research
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    • v.23 no.6
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    • pp.437-449
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    • 2002
  • Coronary arteries are subjected to very different flow conditions compared to other arteries in systemic blood circulation. We Performed a computational fluid dynamic research to investigate influence of such flow conditions in coronary arteries on development and progress of atherosclerosis in the same. The results showed big differences in the flow field of the coronary artery compared to the abdominal and femoral arteries. The coronary artery showed higher wall shear stresses due to the small vessel diameter. On the other hand, it showed only one vortex distal to the stenosis throat during a whole pulse cycle. However. several vortices were observed in the abdominal and femoral arteries in both proximal and distal sides of the stenosis throat The wall shear stresses and extent of recirculation area were increased with impedance phase angle increasing toward more negative values. Therefore, cardiac contraction and the negative impedance phase angle as large as -110。 may induce a flow field that accelerates atherosclerosis.