Industrial validation of conductivity and viscosity models for copper electrolysis processes

The numerical predictions using the standard and RNG k–ε eddy viscosity models, differential stress model (DSM) and algebraic stress model (ASM) are examined for the turbulent flow in a nuclear fuel bundle with the mixing vane. The hybrid (first-order) and curvature-compensated convective transport (CCCT) schemes were used to examine the effect of the differencing scheme for the convection term. The CCCT scheme was found to more accurately predict the characteristics of turbulent flow in the fuel bundle. There is a negligible difference in the prediction performance between the standard and RNG k-ε models. The calculation using ASM failed in meeting the convergence criteria. DSM appeared to more accurately predict the mean flow velocities as well as the turbulence parameters.

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Non-Arrhenius Viscosity Models for Molten Silicate Slags with Constant Pre-Exponential Parameter: A Comparison to Arrhenius Model

High Temperature Materials and Processes ◽

10.1515/htmp-2014-0197 ◽

2016 ◽

Vol 35 (3) ◽

pp. 261-267 ◽

Cited By ~ 2

Author(s):

Lei Gan ◽

Chaobin Lai ◽

Huihui Xiong

Keyword(s):

Low Temperature ◽

Molten Slag ◽

Slag Viscosity ◽

Arrhenius Model ◽

Exponential Parameter ◽

Viscosity Models ◽

Lower Viscosity ◽

Molten Silicate ◽

Parameter Values

AbstractThe accuracies of molten slag viscosity fitting and low-temperature extrapolation were compared between four two-variable models: Arrhenius, Weymann–Frenkel (WF), and Vogel–Fulcher–Tammann (VFT) and Mauro, Yue, Ellison, Gupta and Allan (MYEGA) models with constant pre-exponential parameter, based on a molten slag viscosity database consisting of over 800 compositions and 5,000 measurements. It is found that over wide ranges of pre-exponential parameter, the VFT and MYEGA models have lower viscosity fitting errors and much higher low-temperature viscosity extrapolation accuracies than Arrhenius and WF models. The pre-exponential parameter values of –2.8 for VFT and –2.3 for MYEGA are recommended.

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A Review on some Viscosity Models for CuO-water Nanofluid and their effects on Thermal Enhancement for Automotive Applications

2021 20th IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (iTherm) ◽

10.1109/itherm51669.2021.9503208 ◽

2021 ◽

Author(s):

Eliel Welligton Marcelino ◽

Humberto N. Yoshimura

Keyword(s):

Automotive Applications ◽

Viscosity Models ◽

Thermal Enhancement

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Viscosity Models Based on Network Theory for Polymer Melts

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.129-131.1244 ◽

2010 ◽

Vol 129-131 ◽

pp. 1244-1247

Author(s):

Hai Hang Xu ◽

Lei Zhong

Keyword(s):

Experimental Data ◽

Kinetic Equation ◽

Constitutive Equation ◽

Polymer Composites ◽

Network Theory ◽

Polymer Melts ◽

Structure Parameter ◽

Viscosity Models ◽

Model Predictions ◽

Good Agreement

New shear and extensional viscosity models based on Fredrickson kinetic equation coupled with Dewitt constitutive equation were established to predict viscosities of polymer melts. The experimental data of 125°C LDPE and LDPE filled with 35% glass beads reported from references were compared with the model predictions. The predictions showed good agreement with the measurements. The models are simple and easy to use. Because they contain no structure parameter, they are capable to describe the viscosities of pure polymer and polymer composites.

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On the minimal representation of non-linear eddy-viscosity models

Journal of Turbulence ◽

10.1080/14685248.2011.633085 ◽

2011 ◽

Vol 12 ◽

pp. N47 ◽

Cited By ~ 2

Author(s):

S. Fu ◽

C. Wang ◽

Y. Guo

Keyword(s):

Eddy Viscosity ◽

Minimal Representation ◽

Viscosity Models ◽

Non Linear

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Simulation on the Thixocasting Process of the Turbocharger Impellers and Selection of the Viscosity Models

Solid State Phenomena ◽

10.4028/www.scientific.net/ssp.217-218.219 ◽

2014 ◽

Vol 217-218 ◽

pp. 219-224 ◽

Cited By ~ 1

Author(s):

Fan Zhang ◽

Xiao Gang Hu ◽

Da Quan Li ◽

You Feng He ◽

Xiao Jing Xu ◽

...

Keyword(s):

Solid Fraction ◽

High Speed ◽

High Viscosity ◽

Shrinkage Porosity ◽

Die Design ◽

Semisolid Slurry ◽

Filling Process ◽

Viscosity Models ◽

Defect Control ◽

Porosity Defects

The thixocasting technology is chosen to produce the turbocharger impellers as it is capable of producing castings with high precision dimension, free of oxide and shrinkage porosity defects and therefore long service life. The thixocasting turbocharger impellers have the similar mechanical property to those produced by forging and machine processes, but much less costs. In the thixocasting process, the semisolid slurry with certain solid fraction is injected into mould at a high speed. Since high viscosity and thixotropic characteristics, the semisolid slurry reveals unique flow condition and characteristics in the filling process. So, its very desirable for the die design, process optimization, and defect control to visualize the high-speed filling process of semisolid slurry by numerical simulation. In this paper, several commonly used viscosity models for semisolid slurry are analysed. The Power law cut-off model (PLCO) model is selected to simulate the filling process in the thixocasting process of the impellers of 319s alloy, compared with actual results by partial filling testing. The causes of the casting defects are also analysed, indicating that the simulation results can accurately reproduce the filling process of semisolid slurry, and PLCO model is a successful choice for simulating the filling process of semisolid slurry with high solid fraction.

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