Flow, thermal criticality and transition of a reactive third-grade fluid in a pipe with Reynolds' model viscosity

Neglecting the consumption of the material, a steady incompressible flow of an exothermic reacting third-grade fluid with viscous heating in a circular cylindrical pipe is numerically studied for both cases of constant viscosity and Reynolds' viscosity model. The coupled ordinary differential equati...

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Bibliographic Details
Published in:Journal of hydrodynamics. Series B 2016-02, Vol.28 (1), p.84-94
Main Author: OKOYA, Samuel S.
Format: Article
Language:English
Subjects:
Computational fluid dynamics
Engineering
Engineering Fluid Dynamics
Fluid flow
Fluids
Graphs
heat generation
Hydrology/Water Resources
Mathematical models
non-Newtonian fluids
Numerical and Computational Physics
numerical solutions
Pipe
Simulation
Skin friction
temperature dependent viscosity
thermal transition
third-grade fluid
Viscosity
不可压缩流动
临界性
放热反应
数值研究
流体速度
粘度模型
表格形式
雷诺
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Summary:Neglecting the consumption of the material, a steady incompressible flow of an exothermic reacting third-grade fluid with viscous heating in a circular cylindrical pipe is numerically studied for both cases of constant viscosity and Reynolds' viscosity model. The coupled ordinary differential equations governing the flow in cylindrical coordinates, are transformed into dimensionless forms using appropriate transformations, and then solved numerically. Solutions using Maple are presented in tabular form and given in terms of dimensionless central fluid velocity and temperature, skin friction and heat transfer rate for three parametric values in the Reynolds' case. The numerical results for the velocity and temperature fields are also presented through graphs. Bifurcations are discussed using shooting method. Comparisons are also made between the present results and those of previous work, and thus verify the validity of the provided numerical solutions. Important properties of thermal criticality are provided for variable viscosity parameter and reaction order. Further numerical results are presented in the form of tables and graphs for transition of physical parameters, while varying certain flow and fluid material parameters. Also, the flow behaviour of the reactive fluid of third-grade is compared with those of the Newtonian reactive fluid.
ISSN:1001-6058
1878-0342
DOI:10.1016/S1001-6058(16)60610-8