Investigation of Thermal-Flow Characteristics of Pipes with Helical Micro-Fins of Variable Height

Investigation of Thermal-Flow Characteristics of Pipes with Helical Micro-Fins of Variable Height

The results of numerical investigations of heat transfer and pressure drops in a channel with 30° helical micro-fins are presented. The main aim of the analysis is to examine the influence of the height of the micro-fins on the heat-flow characteristics of the channel. For the tested pipe with a dia...

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Main Authors: Piotr Bogusław Jasiński, Michał Jan Kowalczyk, Artur Romaniak, Bartosz Warwas, Damian Obidowski, Artur Gutkowski
Format: Article
Language:English
Published: MDPI AG 2021-04-01
Series:Energies
Subjects:
heat transfer coefficient
micro-fins
friction factor
numerical methods
CFD
Online Access:https://www.mdpi.com/1996-1073/14/8/2048
id doaj-b053e66bcff244b5b8e28f7e3437dcff
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spelling doaj-b053e66bcff244b5b8e28f7e3437dcff2021-04-07T23:05:52ZengMDPI AGEnergies1996-10732021-04-01142048204810.3390/en14082048Investigation of Thermal-Flow Characteristics of Pipes with Helical Micro-Fins of Variable HeightPiotr Bogusław Jasiński0Michał Jan Kowalczyk1Artur Romaniak2Bartosz Warwas3Damian Obidowski4Artur Gutkowski5Institute of Turbomachinery, Lodz University of Technology, 90-924 Lodz, PolandInstitute of Turbomachinery, Lodz University of Technology, 90-924 Lodz, PolandInstitute of Turbomachinery, Lodz University of Technology, 90-924 Lodz, PolandInstitute of Turbomachinery, Lodz University of Technology, 90-924 Lodz, PolandInstitute of Turbomachinery, Lodz University of Technology, 90-924 Lodz, PolandInstitute of Turbomachinery, Lodz University of Technology, 90-924 Lodz, PolandThe results of numerical investigations of heat transfer and pressure drops in a channel with 30° helical micro-fins are presented. The main aim of the analysis is to examine the influence of the height of the micro-fins on the heat-flow characteristics of the channel. For the tested pipe with a diameter of 12 mm, the micro-fin height varies within the range of 0.05–0.40 mm (with 0.05 mm steps), which is equal to 0.4–3.3% of its diameter. The analysis was performed for a turbulent flow, within the range of Reynolds numbers 10,000–100,000. The working fluid is water with an average temperature of 298 K. For each tested geometry, the characteristics of the friction factor <i>f</i>(<i>Re</i>) and the Nusselt number <i>Nu</i>(<i>Re</i>) are shown in the graphs. The highest values of Nusselt numbers and friction factors were obtained for pipes with the micro-fins <i>H</i> = 0.30 mm and <i>H</i> = 0.35 mm. A large discrepancy is observed in the friction factors <i>f</i>(<i>Re</i>) calculated from the theoretical relationships (for the irregular relative roughness values shown in the Moody diagram) and those obtained from the simulations (for pipes with regular roughness formed by micro-fins). The <i>PEC</i> (Performance Evaluation Criteria) heat transfer efficiency analysis of the geometries under study is also presented, taking into account the criterion of the same pumping power. The highest <i>PEC</i> values, reaching 1.25, are obtained for micro-fins with a height of 0.30 mm and 0.35 mm and with Reynolds numbers above 40,000. In general, for all tested geometries and for large Reynolds numbers (above 20,000), the <i>PEC</i> coefficient reaches values greater than 1, while for lower Reynolds numbers (less than 20,000), its values are less than 1.https://www.mdpi.com/1996-1073/14/8/2048heat transfer coefficientmicro-finsfriction factornumerical methodsCFD
collection DOAJ
language English
format Article
sources DOAJ
author Piotr Bogusław Jasiński
Michał Jan Kowalczyk
Artur Romaniak
Bartosz Warwas
Damian Obidowski
Artur Gutkowski
spellingShingle Piotr Bogusław Jasiński
Michał Jan Kowalczyk
Artur Romaniak
Bartosz Warwas
Damian Obidowski
Artur Gutkowski
Investigation of Thermal-Flow Characteristics of Pipes with Helical Micro-Fins of Variable Height
Energies
heat transfer coefficient
micro-fins
friction factor
numerical methods
CFD
author_facet Piotr Bogusław Jasiński
Michał Jan Kowalczyk
Artur Romaniak
Bartosz Warwas
Damian Obidowski
Artur Gutkowski
author_sort Piotr Bogusław Jasiński
title Investigation of Thermal-Flow Characteristics of Pipes with Helical Micro-Fins of Variable Height
title_short Investigation of Thermal-Flow Characteristics of Pipes with Helical Micro-Fins of Variable Height
title_full Investigation of Thermal-Flow Characteristics of Pipes with Helical Micro-Fins of Variable Height
title_fullStr Investigation of Thermal-Flow Characteristics of Pipes with Helical Micro-Fins of Variable Height
title_full_unstemmed Investigation of Thermal-Flow Characteristics of Pipes with Helical Micro-Fins of Variable Height
title_sort investigation of thermal-flow characteristics of pipes with helical micro-fins of variable height
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2021-04-01
description The results of numerical investigations of heat transfer and pressure drops in a channel with 30° helical micro-fins are presented. The main aim of the analysis is to examine the influence of the height of the micro-fins on the heat-flow characteristics of the channel. For the tested pipe with a diameter of 12 mm, the micro-fin height varies within the range of 0.05–0.40 mm (with 0.05 mm steps), which is equal to 0.4–3.3% of its diameter. The analysis was performed for a turbulent flow, within the range of Reynolds numbers 10,000–100,000. The working fluid is water with an average temperature of 298 K. For each tested geometry, the characteristics of the friction factor <i>f</i>(<i>Re</i>) and the Nusselt number <i>Nu</i>(<i>Re</i>) are shown in the graphs. The highest values of Nusselt numbers and friction factors were obtained for pipes with the micro-fins <i>H</i> = 0.30 mm and <i>H</i> = 0.35 mm. A large discrepancy is observed in the friction factors <i>f</i>(<i>Re</i>) calculated from the theoretical relationships (for the irregular relative roughness values shown in the Moody diagram) and those obtained from the simulations (for pipes with regular roughness formed by micro-fins). The <i>PEC</i> (Performance Evaluation Criteria) heat transfer efficiency analysis of the geometries under study is also presented, taking into account the criterion of the same pumping power. The highest <i>PEC</i> values, reaching 1.25, are obtained for micro-fins with a height of 0.30 mm and 0.35 mm and with Reynolds numbers above 40,000. In general, for all tested geometries and for large Reynolds numbers (above 20,000), the <i>PEC</i> coefficient reaches values greater than 1, while for lower Reynolds numbers (less than 20,000), its values are less than 1.
topic heat transfer coefficient
micro-fins
friction factor
numerical methods
CFD
url https://www.mdpi.com/1996-1073/14/8/2048
work_keys_str_mv AT piotrbogusławjasinski investigationofthermalflowcharacteristicsofpipeswithhelicalmicrofinsofvariableheight
AT michałjankowalczyk investigationofthermalflowcharacteristicsofpipeswithhelicalmicrofinsofvariableheight
AT arturromaniak investigationofthermalflowcharacteristicsofpipeswithhelicalmicrofinsofvariableheight
AT bartoszwarwas investigationofthermalflowcharacteristicsofpipeswithhelicalmicrofinsofvariableheight
AT damianobidowski investigationofthermalflowcharacteristicsofpipeswithhelicalmicrofinsofvariableheight
AT arturgutkowski investigationofthermalflowcharacteristicsofpipeswithhelicalmicrofinsofvariableheight
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