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RANS modeling of turbulent flow and heat transfer of non-Newtonian viscoplastic fluid in a pipe

М. А. Пахомов, Uzak Zhapbasbayev

2021Case Studies in Thermal Engineering18 citationsDOIOpen Access PDF

Abstract

A mathematical model of the movement and heat transfer of a turbulent non-isothermal non-Newtonian fluid through a pipe wall with a cold surrounding space has been developed and simulated numerically. Fluid turbulence is described in the framework of the isotropic two-parameter k– ε˜ model. The Newtonian properties of the fluid in the initial cross-sections of the pipe transformed gradually into a viscoplastic non-Newtonian Bingham-Schwedoff fluid state due to heat transfer through the pipe wall between the heated fluid and a cold environment. The value of its streamwise velocity in the axial zone increased significantly when the fluid moved along the pipe. On the contrary, it decreased in the near-wall zone and the height of the region with a zero fluid velocity increased. This occurred due to the viscoplastic properties of a non-Newtonian fluid. The height of the region with a zero fluid velocity in the pipe increased gradually as the non-Newtonian fluid (waxy crude oil) moved through the pipe. A noticeable increase in the level of turbulent kinetic energy in the axial zone of the pipe and its noticeable decrease in its near-wall region were observed. A significant increase in the average dynamic viscosity and yield stress in the near-wall part of the pipe was shown. The boundary of the area of existence of Newtonian properties of fluid was determined. The height of the region with a zero fluid velocity in the pipe increased gradually as waxy crude oil moved through the pipe and reached y/R ≈ 0.1 at x/D = 15.

Topics & Concepts

Herschel–Bulkley fluidMechanicsNewtonian fluidTurbulenceHeat transferViscoplasticityMaterials sciencePipe flowNon-Newtonian fluidGeneralized Newtonian fluidFluid dynamicsTurbulence kinetic energyThermodynamicsViscosityPhysicsConstitutive equationShear rateFinite element methodRheology and Fluid Dynamics StudiesPetroleum Processing and AnalysisEnhanced Oil Recovery Techniques
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