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Particle paths and stasis in unsteady flow through a bifurcation

Publication ,  Journal Article
Ehrlich, LW; Friedman, MH
Published in: J. Biomech. (UK)
1977
Published version (DOI) Link to item

In a study of the role of fluid mechanics in atherogenesis particle paths and stasis in a two-dimensional symmetric branch were examined, using the results of earlier fluid mechanical simulations of pulsatile blood flow to provide the velocity field. In regions where separation occurs, the particles trace paths which cannot be predicted by a steady flow calculation but are complex functions of the fluid velocity field. All particles examined were downstream from their starting point at the end of one pulsatile cycle, implying the absence of `perpetual' stasis. The numerical results suggest that stasis may not be a significant factor in atherogenesis as may have been thought, at least for the area ratio considered

Duke Scholars

Morton Friedman
Author Morton Friedman Biomedical Engineering

Published In

J. Biomech. (UK)

DOI

10.1016/0021-9290(77)90036-7

Publication Date

1977

Volume

10

Issue

9

Start / End Page

561 / 568

Related Subject Headings

  • Biomedical Engineering
  • 1106 Human Movement and Sports Sciences
  • 0913 Mechanical Engineering
  • 0903 Biomedical Engineering
 

Citation

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Ehrlich, L. W., & Friedman, M. H. (1977). Particle paths and stasis in unsteady flow through a bifurcation. J. Biomech. (UK), 10(9), 561–568. https://doi.org/10.1016/0021-9290(77)90036-7
Ehrlich, L. W., and M. H. Friedman. “Particle paths and stasis in unsteady flow through a bifurcation.” J. Biomech. (UK) 10, no. 9 (1977): 561–68. https://doi.org/10.1016/0021-9290(77)90036-7.
Ehrlich LW, Friedman MH. Particle paths and stasis in unsteady flow through a bifurcation. J Biomech (UK). 1977;10(9):561–8.
Ehrlich, L. W., and M. H. Friedman. “Particle paths and stasis in unsteady flow through a bifurcation.” J. Biomech. (UK), vol. 10, no. 9, 1977, pp. 561–68. Manual, doi:10.1016/0021-9290(77)90036-7.
Ehrlich LW, Friedman MH. Particle paths and stasis in unsteady flow through a bifurcation. J Biomech (UK). 1977;10(9):561–568.

Published In

J. Biomech. (UK)

DOI

10.1016/0021-9290(77)90036-7

Publication Date

1977

Volume

10

Issue

9

Start / End Page

561 / 568

Related Subject Headings

  • Biomedical Engineering
  • 1106 Human Movement and Sports Sciences
  • 0913 Mechanical Engineering
  • 0903 Biomedical Engineering