Thermal analysis of tubular arrangements submitted to external flow using constructal theory

Present work performs a numerical study about the energy removal in a heated tubular array submitted to an external flow. Taking into account that a large variety of tubular arrangements can exists, in this work it is developed a tubular array that does not use any kind of initial predefined arrange...

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Bibliographic Details
Published in:International communications in heat and mass transfer Vol. 111; p. 104458
Main Authors: Pedroti, V.A., de Escobar, C.C., dos Santos, E.D., Souza, J.A.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.02.2020
Subjects:
Constructal Theory
Deterministic algorithm
Numerical Modeling
Tube heat exchanger
Constructal Theory
GA
Deterministic algorithm
Tube heat exchanger
Numerical Modeling
ISSN:0735-1933, 1879-0178
Online Access:Get full text
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Summary:Present work performs a numerical study about the energy removal in a heated tubular array submitted to an external flow. Taking into account that a large variety of tubular arrangements can exists, in this work it is developed a tubular array that does not use any kind of initial predefined arrangement. Using the principles of Constructal Theory (or Law) and a positioning function dependent on the velocity and temperature fields, it is calculated, in a deterministic way, the location where each tube should be positioned. Pressure drop is not taken in to account in this first algorithm implementation as a performance indicator. In order to validate the proposed methodology, the Constructal Array is compared with standard aligned and staggered arrangements suggested in literature. The minimum distance between tubes (p) is considered as a degree of freedom. Four variations are studied: p = 1D, p = 1.25D, p = 1.5D and p = 2D, where D is the tube diameter. It is considered here the simulation of a transient, incompressible and laminar flow of a Newtonian fluid in a two-dimensional domain with forced convection and Prandtl number equal to 0.71. Results are computed when the flow reaches to the steady state condition. It is evaluated three values for Reynolds number: ReD = 10, 50 and 100. Thermal analysis of the formed patterns has shown that best thermal performance was not obtained with p = 1D, neither with p = 2D, i.e., tube distance has an influence on its formation and, consequently, on the heat transfer exchange. In all performed analyzes, Constructal arrays configuration showed higher energy removal (up to 71%) than the aligned and staggered arrangements, which highlights the capacity of proposed method. Constructal Array for p = 1.5D showed the most homogeneous distribution and proved to be the most effective in 4 of the six studied cases.
ISSN:0735-1933
1879-0178
DOI:10.1016/j.icheatmasstransfer.2019.104458