THE STEADY/PULSATILE FLOW AND MACROMOLECULAR TRANSPORT IN T-BIFURCATION BLOOD VESSELS

被引:0
|
作者
李丁
温功碧
机构
[1] Department of Mechanics and Engineering Science
[2] P.R.China
[3] State Key Laboratory for Turbulence and Complicated System Research
[4] State Key Laboratory for Turbulence and Complicated System Research Peking University
[5] Beijing 100871
来源
Applied Mathematics and Mechanics(English Edition) | 2003年 / 05期
关键词
T-bifurcation; steady blood flow; unsteady blood flow; macromolecular transport; pulsatile blood flow;
D O I
暂无
中图分类号
R318.01 [生物力学];
学科分类号
0831 ;
摘要
A numerical analysis of the steady and pulsatile, macromolecular(such as low density lipopotein (LDL), Albumin) transport in T-bifurcation was proposed. The influence of Reynolds number and mass flow ratio etc. parameters on the velocity field and mass transport were calculated. The computational results predict that the blood flow factors affect the macromolecular distribution and the transport across the wall, it shows that hemodynamic play an important role in the process of atherosclerosis. The LDL and Albumin concentration on the wall varies most greatly in flow bifurcation area where the wall shear stress varies greatly at the branching vessel and the atherosclerosis often appears there.
引用
收藏
页码:532 / 544
页数:13
相关论文
共 50 条
  • [31] The effect of a bifurcation structure on the heat transfer and temperature distribution of pulsatile blood flow
    Zhang, Yan
    Xie, Haiwei
    INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 2018, 118 : 663 - 670
  • [32] Bifurcation of flow and mass transport in a curved blood vessel
    Tan, WC
    Wei, L
    Zhao, YH
    Takashi, M
    ACTA MECHANICA SINICA, 2003, 19 (04) : 315 - 319
  • [33] Bifurcation of flow and mass transport in a curved blood vessel
    Tan Wenchang
    Wei Lan
    Zhao Yaohua
    Takashi Masuoka
    Acta Mechanica Sinica, 2003, 19 (4) : 315 - 319
  • [34] Effect of pulsatile blood flow on LDL transport in arterial layers
    Santra, Somnath
    Mandal, Dipak Kumar
    Chakrabarti, Somnath
    PROGRESS IN COMPUTATIONAL FLUID DYNAMICS, 2018, 18 (03): : 177 - 187
  • [35] Pulsatile blood flow and oxygen transport past a circular cylinder
    Zierenberg, Jennifer R.
    Fujioka, Hideki
    Hirschl, Ronald B.
    Bartlett, Robert H.
    Grotberg, James B.
    JOURNAL OF BIOMECHANICAL ENGINEERING-TRANSACTIONS OF THE ASME, 2007, 129 (02): : 202 - 215
  • [36] Pulsatile blood flow effects on temperature distribution and heat transfer in rigid vessels
    Craciunescu, OI
    Clegg, ST
    JOURNAL OF BIOMECHANICAL ENGINEERING-TRANSACTIONS OF THE ASME, 2001, 123 (05): : 500 - 505
  • [37] A Pulsatile flow phantom for image-guided HIFU hemostasis of blood vessels
    Greaby, R
    Vaezy, S
    4th International Symposium on Therapeutic Ultrasound, 2005, 754 : 68 - 70
  • [38] Expansion of bubbles under a pulsatile flow regime in decompressed ovine blood vessels
    Arieli, Ran
    Marmur, Abraham
    RESPIRATORY PHYSIOLOGY & NEUROBIOLOGY, 2016, 222 : 1 - 5
  • [39] Doppler power variation from porcine blood under steady and pulsatile flow
    Paeng, DG
    Cao, PJ
    Shung, KK
    ULTRASOUND IN MEDICINE AND BIOLOGY, 2001, 27 (09): : 1245 - 1254
  • [40] Dynamics of blood flow and platelet transport in pathological vessels
    Einav, S
    Bluestein, D
    CARDIAC ENGINEERING: FROM GENES AND CELLS TO STRUCTURE AND FUNCTION, 2004, 1015 : 351 - 366
12345