Journal of Thermal Analysis and Calorimetry, ( ISI ), Volume (138), No (2), Year (2019-10) , Pages (1423-1436)

Title : ( Entropy generation of turbulent Cu–water nanofluid flow in a heat exchanger tube fitted with perforated conical rings )

Authors: mahdi erfanian , Javad Abolfazli Esfahani ,

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Abstract

Entropy generation analysis for the Cu-water nanofluid flow through a heat exchanger tube equipped with perforated conical rings is numerically investigated. Frictional and thermal entropy generation rates are defined as functions of velocity and temperature gradients. Governing equations are solved by using finite volume method and Reynolds number is in the range of 5000–15000. The effects of geometrical and physical parameters such as Reynolds number, number of holes and nanoparticles volume fraction on the thermal and viscous entropy generation rates and Bejan number are investigated. The results indicate that the thermal irreversibility is dominant in most part of the tube. But it decreases with increasing the nanoparticle volume fraction. Frictional entropy generation reduces with increasing the number of holes from 4 to 10. This is because of stronger velocity gradient near the perforated holes. Bejan number decreases with augment of Reynolds number.

Keywords

Entropy generation; Bejan number; Perforated conical ring; Turbulent flow
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@article{paperid:1073414,
author = {Erfanian, Mahdi and Abolfazli Esfahani, Javad},
title = {Entropy generation of turbulent Cu–water nanofluid flow in a heat exchanger tube fitted with perforated conical rings},
journal = {Journal of Thermal Analysis and Calorimetry},
year = {2019},
volume = {138},
number = {2},
month = {October},
issn = {1388-6150},
pages = {1423--1436},
numpages = {13},
keywords = {Entropy generation; Bejan number; Perforated conical ring; Turbulent flow},
}

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%0 Journal Article
%T Entropy generation of turbulent Cu–water nanofluid flow in a heat exchanger tube fitted with perforated conical rings
%A Erfanian, Mahdi
%A Abolfazli Esfahani, Javad
%J Journal of Thermal Analysis and Calorimetry
%@ 1388-6150
%D 2019

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