Steady flow of a power law fluid through a tapered non-symmetric stenotic tube
Article Category: Papers dedicated to the memory of Valetnin Afraymovich (1945-2018)
Publié en ligne: 28 juin 2019
Pages: 255 - 266
Reçu: 31 oct. 2019
Accepté: 19 déc. 2019
© 2019 Riaz Ahmad et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Fig. 1
Geometry of non-symmetric stenotic artery.Fig. 2
Stenotic tapered artery for different taper angles.Fig. 3
Velocity variation for F=2, δ=0.4, n=2, a=0.2, b=0.4.Fig. 4
Velocity variation for F=2, n=2, a=0.2, b=0.4, m=1.1.Fig. 5
Velocity variation for F=2,δ =0.2, n=2, a=0.2, b=0.4, m=1.Fig. 6
Velocity variation for F=2, δ=0.4, a=0.2, b=0.4, m=1.1.Fig. 7
Wall shear stress variation for F=1, δ=0.2, a=0.2, b=0.4, m=1.Fig. 8
Wall shear stress variation for F=1, L=1, a=0.2, b=0.4, m=1.Fig. 9
Wall shear stress variation for F=1, L=1, a=0.2, b=0.4,δ=0.4.Fig. 10
Wall shear stress variation for F=1, L=1, a=0.2, b=0.4,δ=0.4.Fig. 11
Resistance impedance for F=0.6, L=1, a=0.2, b=0.4, m=2.Fig. 12
Resistance impedance for F=0.6, L=1, a=0.2, b=0.4, n=2.Fig. 13
Resistance impedance for F=0.6, L=1, a=0.2, b=0.4, m=1.2, n=2.Fig. 14
Shear stress at stenotic throat for F=0.2.Fig. 15
Shear stress at stenotic throat for m=2.