Finite Element Analysis of the Dynamics of Power-Law Fluid around an Obstacle in a Channel
عرض / فتح
التاريخ
2022المؤلف
Mahmood, RashidJaradat, Mohammed M. M.
Ali, Rifaqat
Siddique, Imran
Majeed, Afraz Hussain
Mehmood, Asif
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البيانات الوصفية
عرض كامل للتسجيلةالملخص
Control of uid forces is an emerging area of research with numerous engineering applications. e uneven wake behind an
obstacle causes undesirable structural oscillations, which can lead to fatigue or structural failure. Controlling the wake phenomena
could directly bene t a wide range of engineering applications, including skyscrapers, naval risers, bridges, columns, and a few
sections of airplanes. is study is concerned with the time dependent simulations in a channel in presence of an obstacle aiming
to compute uid forces. e underlying mathematical model is based on nonstationary Navier–Stokes equations coupled with the
constitutive relations of power law uids. Because the representative equations are complex, an e ective computing strategy based
on the nite element approach is used. To achieve higher accuracy, a hybrid computational grid at a very ne level is used. e
P2 − P1 elements based on the shape functions of the second and rst-order polynomials were used to approximate the solution.
e discrete nonlinear system arising from this discretization is linearized by Newton’s method and then solved through a direct
linear solver PARADISO. e code validation study is also performed for Newtonian uids as a special case, and then the study is
extended to compute drag and lift forces for other cases of viscosity as described by the power law index. When looking at the
phase plot, it can be seen that for the Newtonian case n 1, there is only one closed orbit after the steady state is reached, whereas
for n 0.5, there are multiple periodic orbits. Moreover, the e ects of shear rate on the drag-lift phase plot are also discussed.
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