Effects of nanoparticles (Cu, \(\mathrm{TiO}_2\), \(\mathrm{Al}_2\mathrm{O}_3)\) on unsteady blood flow through a curved overlapping stenosed channel
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Publication:1997344
DOI10.1016/j.matcom.2018.08.012OpenAlexW2890222870MaRDI QIDQ1997344
Mazhar Sajjad, Akbar Zaman, Nasir Ali
Publication date: 2 March 2021
Published in: Mathematics and Computers in Simulation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.matcom.2018.08.012
Grashof numberbloodcurved channelnanoparticles (Cu, \(\mathrm{TiO}_2\), \(\mathrm{Al}_2\mathrm{O}_3)\)unsteady hemodynamics
Related Items (4)
Significance of body acceleration and gold nanoparticles through blood flow in an uneven/composite inclined stenosis artery: a finite difference computation ⋮ Computational biomedical simulations of hybrid nanoparticles on unsteady blood hemodynamics in a stenotic artery ⋮ Time dependent non-Newtonian nano-fluid (blood) flow in w-shape stenosed channel; with curvature effects ⋮ Qualitative theoretical modeling to study the possibility of detecting multi-virus in blood flow using nano-quartz crystal microbalance
Cites Work
- Finite element study of nonlinear two-dimensional deoxygenated biomagnetic micropolar flow
- Theoretical analysis of metallic nanoparticles on blood flow through stenosed artery with permeable walls
- An unsteady analysis of non-Newtonian blood flow through tapered arteries with a stenosis
- Mathematical modelling of blood flow through an overlapping arterial stenosis
- A numerical simulation of viscous flows in collapsible tubes with stenoses
- A micropolar fluid model of blood flow through a tapered artery with a stenosis
- UNSTEADY TWO-LAYERED BLOOD FLOW THROUGH A -SHAPED STENOSED ARTERY USING THE GENERALIZED OLDROYD-B FLUID MODEL
- Analysis of non-linear pulsatile blood flow in artery through a generalized multiple stenosis
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