Experimental and numerical study of submerged jets from pipes of different wall thicknesses for re < 1

M. Sánchez-Rosasa; J. Casillas-Navarretea; J. A. Jimenez-Bernala; V. N. Kurdyumovb; A. Medinac

doi:10.31349/RevMexFis.66.69

Experimental and numerical study of submerged jets from pipes of different wall thicknesses for re < 1

M. Sánchez-Rosasa, J. Casillas-Navarretea, J. A. Jimenez-Bernala, V. N. Kurdyumovb, A. Medinac

Escuela Superior de Ingeniería Mecánica y Eléctrica (ESIME), Unidad Zacatenco

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Abstract

In this work, the experimental and numerical results from the study of the effects caused in a submerged jet flow by the change in the wall thickness of the circular tube from which said flow originates are presented. For small values of the Reynolds number Re (Re 0:11), four cases, regarding the ratio of pipe wall thickness to inner radius, are considered: (I) pipe thickness is a fourth of the radius, (II) pipe thickness is half the radius, (III) pipe thickness is equal to the radius and (IV) pipe thickness is three times the radius. The Particle Image Velocimetry (PIV) technique was used to experimentally obtain the velocity and streamlines distributions. A numerical code based on the finite difference method was developed to solve the motion governing equations, and the numerical results were compared with the values obtained experimentally.

Original language	English
Pages (from-to)	69-76
Number of pages	8
Journal	Revista Mexicana de Fisica
Volume	66
Issue number	1
DOIs	https://doi.org/10.31349/RevMexFis.66.69
State	Published - 2020

Keywords

Computational methods in fluid dynamics
Low-reynolds-number (creeping) flows
PIV.
Velocity measurements

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10.31349/RevMexFis.66.69

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title = "Experimental and numerical study of submerged jets from pipes of different wall thicknesses for re < 1",

abstract = "In this work, the experimental and numerical results from the study of the effects caused in a submerged jet flow by the change in the wall thickness of the circular tube from which said flow originates are presented. For small values of the Reynolds number Re (Re 0:11), four cases, regarding the ratio of pipe wall thickness to inner radius, are considered: (I) pipe thickness is a fourth of the radius, (II) pipe thickness is half the radius, (III) pipe thickness is equal to the radius and (IV) pipe thickness is three times the radius. The Particle Image Velocimetry (PIV) technique was used to experimentally obtain the velocity and streamlines distributions. A numerical code based on the finite difference method was developed to solve the motion governing equations, and the numerical results were compared with the values obtained experimentally.",

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author = "M. S{\'a}nchez-Rosasa and J. Casillas-Navarretea and Jimenez-Bernala, {J. A.} and Kurdyumovb, {V. N.} and A. Medinac",

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AU - Sánchez-Rosasa, M.

AU - Casillas-Navarretea, J.

AU - Jimenez-Bernala, J. A.

AU - Kurdyumovb, V. N.

AU - Medinac, A.

PY - 2020

Y1 - 2020

N2 - In this work, the experimental and numerical results from the study of the effects caused in a submerged jet flow by the change in the wall thickness of the circular tube from which said flow originates are presented. For small values of the Reynolds number Re (Re 0:11), four cases, regarding the ratio of pipe wall thickness to inner radius, are considered: (I) pipe thickness is a fourth of the radius, (II) pipe thickness is half the radius, (III) pipe thickness is equal to the radius and (IV) pipe thickness is three times the radius. The Particle Image Velocimetry (PIV) technique was used to experimentally obtain the velocity and streamlines distributions. A numerical code based on the finite difference method was developed to solve the motion governing equations, and the numerical results were compared with the values obtained experimentally.

AB - In this work, the experimental and numerical results from the study of the effects caused in a submerged jet flow by the change in the wall thickness of the circular tube from which said flow originates are presented. For small values of the Reynolds number Re (Re 0:11), four cases, regarding the ratio of pipe wall thickness to inner radius, are considered: (I) pipe thickness is a fourth of the radius, (II) pipe thickness is half the radius, (III) pipe thickness is equal to the radius and (IV) pipe thickness is three times the radius. The Particle Image Velocimetry (PIV) technique was used to experimentally obtain the velocity and streamlines distributions. A numerical code based on the finite difference method was developed to solve the motion governing equations, and the numerical results were compared with the values obtained experimentally.

KW - Computational methods in fluid dynamics

KW - Low-reynolds-number (creeping) flows

KW - PIV.

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JO - Revista Mexicana de Fisica

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Experimental and numerical study of submerged jets from pipes of different wall thicknesses for re < 1

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