Statistical Analysis of Hydrodynamic Forces in Power-Law Fluid Flow in a Channel: Circular Versus Semi-Circular Cylinder

Mahmood, Rashid; Majeed, Afraz Hussain; Tahir, Muhammad; Saddique, Imran; Hamadneh, Nawaf N.; Khan, Ilyas; Mehmood, Asif

doi:10.3389/fphy.2022.830408

Cited by 4 publications

(2 citation statements)

References 43 publications

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“…The relationship between maximum axial velocity and power index n in shear thinning and shear thickening, respectively with fixed {Re=1, k=1, μ 0 =2} is presented in Figure 7(a) and Figure 7(b). In both cases a direct proportionality between the maximum velocity and n is occurred with high level is appeared in the shear thickening situation, which is consistence with findings reported by others in power law model too [25]. 𝝁 𝟎 -variation: The history convergence tolerances of axial velocity and pressure with 𝜇 0 variation and {Re=10 and k =1} are shown in Figure 8 and Figure 9 again in shear thinning (n=0.8) and shear thickening (n=2.…”

Section: K-variationsupporting

confidence: 86%

Numerical Study of Shear and Extensional Inelastic Contraction Flows

Sharhan

Al-Muslimawi

2023

CFDL

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This study investigates the numerical solution of viscous sharp contraction flow using a time-step Taylor-Galerkin-pressure correction finite element method (T-G/P-C). Such a complex problfem displays a start-up, 4:1contraction creeping flow, shear viscosity and extensional viscosity responses. Here, inelastic shear-extensional viscosity model is proposed with a single power-index response and identical in shear and extension, namely Fit-I. In this context, extension rate and shear rate are defined by depending on the second and third invariants of the rate of deformation tensor. Employing (T-G/P-C) method by combining with extensional and shear viscosity representation to treat such problem gives novel scenario. The interesting of this study lies in determining the efficient effect of relevant parameters of inelastic shear-extensional viscosity model on the solutions components, and rate of convergence issues. Attention also is paid to the impact of these parameters on the rate of convergence issues

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Section: K-variationsupporting

confidence: 86%

Numerical Study of Shear and Extensional Inelastic Contraction Flows

Sharhan

Al-Muslimawi

2023

CFDL

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“…For dynamic analysis of an electromagnetic pneumatic fow servo valve, Rashid et al evaluated diferent fow features for a modifed cross-model fuid fow, which aims to analyze the parameters and choose accurate solutions. A wide range of parameters and coefcients of drag and lift had been performed [23,24]. Shi et al proposed a transfer feature learning method that applied a new method to achieve the acquired parameters and dynamic characteristics of the valve [25,26].…”

Section: Introductionmentioning

confidence: 99%

Finite Element Modeling and Optimal Design of an Electromagnetic Pneumatic Flow Servo Valve

Zedan

Guo²,

Zhu

et al. 2023

Mathematical Problems in Engineering

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The electromagnet pneumatic proportional servo valve is widely used in industrial automation, medical equipment, scientific composition detectors, and other fields that require precise adjustment of high-pressure air flow due to its simple working structure, large output power, large working frequency response, and good control performance. However, the output pressure of the valve is small, making it vulnerable to the impact of the external environment. Based on the practical electromagnet-type pneumatic proportional servo valve, this paper establishes a finite element dynamic mathematical model, conducts finite element analysis on the electromagnet magnetic field in the valve, then improves the structural parameters of the original proportional valve through the analysis of the valve performance parameters and structural optimization, and finally, the physical experiment proves that the optimized electric proportional valve can effectively reduce the hysteresis within the working pressure range and has good response characteristics to step signals. This paper can provide support for performance analysis and structural parameter improvement of the electric proportional valve.

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