In this study, the hybrid nanoparticle (Au, Ag) model was used to examine its impact on non-Newtonian pulsatile blood flow through artery with multiple stenoses subjected to body acceleration and inclined magnetic field. The mild stenotic hypothesis is employed to normalize and reduce the two-directional momentum equations to unidirectional flow. The pair partial differential equations are discretized utilizing the finite difference approach. As a result, these solutions are used to investigate the impact of gold nanoparticles (Au) and hybrid nanoparticles (Au-Ag/blood) on flow of blood parameters. Additionally, the outcomes of gold (Au) nanoparticles and hybrid nanoparticles (Au-Ag/blood) were compared.

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Pulsatile Flow of Non-Newtonian Blood Containing Hybrid Nanoparticles Through an Artery with Multiple Stenoses in the Presence of an Inclined Magnetic Field

  • Issa El Glili,
  • Abdelmajid Saidi,
  • Youness Foukhari,
  • Mohamed Driouich,
  • Mohamed Sammouda

摘要

In this study, the hybrid nanoparticle (Au, Ag) model was used to examine its impact on non-Newtonian pulsatile blood flow through artery with multiple stenoses subjected to body acceleration and inclined magnetic field. The mild stenotic hypothesis is employed to normalize and reduce the two-directional momentum equations to unidirectional flow. The pair partial differential equations are discretized utilizing the finite difference approach. As a result, these solutions are used to investigate the impact of gold nanoparticles (Au) and hybrid nanoparticles (Au-Ag/blood) on flow of blood parameters. Additionally, the outcomes of gold (Au) nanoparticles and hybrid nanoparticles (Au-Ag/blood) were compared.