Numerical simulation of laminar forced convection in horizontal pipe partially or completely filled with porous material

Laminar forced convection flow through a pipe partially and completely filled with a porous material is investigated numerically for three different cases. In the first case the porous material has a cylindrical shape placed at the centerline of the pipe, in the second case the porous material has a...

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Published in:	International journal of thermal sciences Vol. 50; no. 8; pp. 1512 - 1522
Main Authors:	Teamah, Mohamed A., El-Maghlany, Wael M., Khairat Dawood, Mohamed M.
Format:	Journal Article
Language:	English
Published:	Kidlington Elsevier Masson SAS 01-08-2011 Elsevier
Subjects:	Applied sciences Completely filled Computational fluid dynamics Convection and heat transfer Energy Energy. Thermal use of fuels Exact sciences and technology Flow inside pipe Flows in ducts, channels, nozzles, and conduits Flows through porous media Fluid dynamics Fluid flow Fluids Forced convection Fundamental areas of phenomenology (including applications) Heat transfer Mathematical analysis Mathematical models Nonhomogeneous flows Numerical simulation Partially filled Physics Pipe Porous material Porous materials Theoretical studies. Data and constants. Metering Turbulent flows, convection, and heat transfer Completely filled Numerical simulation Partially filled Porous material Heat transfer Flow inside pipe Forced convection Nusselt number Digital simulation Velocity distribution Horizontal pipe Porous medium flow Laminar flow Pressure drop Modelling
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Abstract	Laminar forced convection flow through a pipe partially and completely filled with a porous material is investigated numerically for three different cases. In the first case the porous material has a cylindrical shape placed at the centerline of the pipe, in the second case the porous material has an annular shape and in the third case the porous material has a cylindrical shape placed at z i = 0.05 L from the pipe inlet. The momentum equations are used for describing the fluid flow in the clear region. The Darcy–Forcheimer–Brinkman model is adopted to describe the fluid transport in the porous region. The mathematical model for energy transport is based on the one equation model which assumes a local thermal equilibrium between the fluid and the solid phases. The study covers a wide range of the dimensionless outer radius of the porous material 0 ≤ Rpe ≤ 1 and the effect of Darcy number, 2 × 10 −4 ≤ Da ≤ 2 × 10 −1. The effect of the porous outer radius and Darcy number on the velocity profiles, the local Nusselt number, the average Nusselt number and the pressure drop are studied. Through the study the Prandtl number, Reynolds number, the ratio between pipe length to outer diameter and porosity were kept constant at 0.7, 100, 25 and 0.9 respectively.
AbstractList	Laminar forced convection flow through a pipe partially and completely filled with a porous material is investigated numerically for three different cases. In the first case the porous material has a cylindrical shape placed at the centerline of the pipe, in the second case the porous material has an annular shape and in the third case the porous material has a cylindrical shape placed at z i = 0.05 L from the pipe inlet. The momentum equations are used for describing the fluid flow in the clear region. The Darcy–Forcheimer–Brinkman model is adopted to describe the fluid transport in the porous region. The mathematical model for energy transport is based on the one equation model which assumes a local thermal equilibrium between the fluid and the solid phases. The study covers a wide range of the dimensionless outer radius of the porous material 0 ≤ Rpe ≤ 1 and the effect of Darcy number, 2 × 10 −4 ≤ Da ≤ 2 × 10 −1. The effect of the porous outer radius and Darcy number on the velocity profiles, the local Nusselt number, the average Nusselt number and the pressure drop are studied. Through the study the Prandtl number, Reynolds number, the ratio between pipe length to outer diameter and porosity were kept constant at 0.7, 100, 25 and 0.9 respectively. Laminar forced convection flow through a pipe partially and completely filled with a porous material is investigated numerically for three different cases. In the first case the porous material has a cylindrical shape placed at the centerline of the pipe, in the second case the porous material has an annular shape and in the third case the porous material has a cylindrical shape placed at z sub(i) = 0.05L from the pipe inlet. The momentum equations are used for describing the fluid flow in the clear region. The Darcy-Forcheimer-Brinkman model is adopted to describe the fluid transport in the porous region. The mathematical model for energy transport is based on the one equation model which assumes a local thermal equilibrium between the fluid and the solid phases. The study covers a wide range of the dimensionless outer radius of the porous material 0 = Rpe = 1 and the effect of Darcy number, 2 x 10 super(-4) = Da = 2 x 10 super(-1). The effect of the porous outer radius and Darcy number on the velocity profiles, the local Nusselt number, the average Nusselt number and the pressure drop are studied. Through the study the Prandtl number, Reynolds number, the ratio between pipe length to outer diameter and porosity were kept constant at 0.7, 100, 25 and 0.9 respectively.
Author	Khairat Dawood, Mohamed M. Teamah, Mohamed A. El-Maghlany, Wael M.
Author_xml	– sequence: 1 givenname: Mohamed A. surname: Teamah fullname: Teamah, Mohamed A. email: mteamah@yahoo.com organization: Mechanical Eng. Dept, Faculty of Engineering, Alexandria University, Alexandria, Egypt – sequence: 2 givenname: Wael M. surname: El-Maghlany fullname: El-Maghlany, Wael M. organization: Faculty of Engineering, Suez Canal University, Ismailia, Egypt – sequence: 3 givenname: Mohamed M. surname: Khairat Dawood fullname: Khairat Dawood, Mohamed M. organization: Faculty of Engineering, Suez Canal University, Ismailia, Egypt
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Keywords	Completely filled Numerical simulation Partially filled Porous material Heat transfer Flow inside pipe Forced convection Nusselt number Digital simulation Velocity distribution Horizontal pipe Porous medium flow Laminar flow Pressure drop Modelling
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Snippet	Laminar forced convection flow through a pipe partially and completely filled with a porous material is investigated numerically for three different cases. In...
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SubjectTerms	Applied sciences Completely filled Computational fluid dynamics Convection and heat transfer Energy Energy. Thermal use of fuels Exact sciences and technology Flow inside pipe Flows in ducts, channels, nozzles, and conduits Flows through porous media Fluid dynamics Fluid flow Fluids Forced convection Fundamental areas of phenomenology (including applications) Heat transfer Mathematical analysis Mathematical models Nonhomogeneous flows Numerical simulation Partially filled Physics Pipe Porous material Porous materials Theoretical studies. Data and constants. Metering Turbulent flows, convection, and heat transfer
Title	Numerical simulation of laminar forced convection in horizontal pipe partially or completely filled with porous material
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