Heat Transfer Enhancement in a Novel Annular Tube with Outer Straight and Inner Twisted Oval Tubes

Heat Transfer Enhancement in a Novel Annular Tube with Outer Straight and Inner Twisted Oval Tubes

The thermal-hydraulic performance in a novel annular tube formed by outer straight and inner twisted oval tubes is numerically investigated. An annular tube formed by two straight oval tubes is also studied for comparison. Inner twisted oval tubes with different aspect ratios and twist ratios are st...

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Bibliographic Details
Main Authors: Chao Luo, KeWei Song, Toshio Tagawa, TengFei Liu
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:Symmetry
Subjects:
twisted oval tube
annular tube
double-pipe heat exchanger
thermal performance
Online Access:https://www.mdpi.com/2073-8994/12/8/1213
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spelling doaj-b1147477a79f47a1ac8ecb775713ca4e2020-11-25T02:48:06ZengMDPI AGSymmetry2073-89942020-07-01121213121310.3390/sym12081213Heat Transfer Enhancement in a Novel Annular Tube with Outer Straight and Inner Twisted Oval TubesChao Luo0KeWei Song1Toshio Tagawa2TengFei Liu3School of Mechanical Engineering, Key Laboratory of Railway Vehicle Thermal Engineering of MOE, Lanzhou Jiaotong University; Lanzhou 730070, ChinaSchool of Mechanical Engineering, Key Laboratory of Railway Vehicle Thermal Engineering of MOE, Lanzhou Jiaotong University; Lanzhou 730070, ChinaDepartment of Aeronautics and Astronautics, Tokyo Metropolitan University, Hino, Tokyo 191-0065, JapanSchool of Mechanical Engineering, Key Laboratory of Railway Vehicle Thermal Engineering of MOE, Lanzhou Jiaotong University; Lanzhou 730070, ChinaThe thermal-hydraulic performance in a novel annular tube formed by outer straight and inner twisted oval tubes is numerically investigated. An annular tube formed by two straight oval tubes is also studied for comparison. Inner twisted oval tubes with different aspect ratios and twist ratios are studied. The heat transfer is well improved by the symmetrical secondary flow in the annulus. The Nusselt number generally increases when the inner oval tube becomes flatter and the twists stronger in the studied range of geometrical parameters. The largest Nusselt number <i>Nu</i> of the inner twisted tube increases by 116% while the friction factor <i>f</i> increases by only 46% compared with that of the inner straight tube, and the largest value of the thermal performance factor (<i>JF</i>) can be up to 1.9. Correlations of the Nusselt number and friction factor are proposed for laminar and turbulent flows, and the deviations of the correlations are within ±5% and ±4% for <i>Nu</i> and<i> f</i>, respectively.https://www.mdpi.com/2073-8994/12/8/1213twisted oval tubeannular tubedouble-pipe heat exchangerthermal performance
collection DOAJ
language English
format Article
sources DOAJ
author Chao Luo
KeWei Song
Toshio Tagawa
TengFei Liu
spellingShingle Chao Luo
KeWei Song
Toshio Tagawa
TengFei Liu
Heat Transfer Enhancement in a Novel Annular Tube with Outer Straight and Inner Twisted Oval Tubes
Symmetry
twisted oval tube
annular tube
double-pipe heat exchanger
thermal performance
author_facet Chao Luo
KeWei Song
Toshio Tagawa
TengFei Liu
author_sort Chao Luo
title Heat Transfer Enhancement in a Novel Annular Tube with Outer Straight and Inner Twisted Oval Tubes
title_short Heat Transfer Enhancement in a Novel Annular Tube with Outer Straight and Inner Twisted Oval Tubes
title_full Heat Transfer Enhancement in a Novel Annular Tube with Outer Straight and Inner Twisted Oval Tubes
title_fullStr Heat Transfer Enhancement in a Novel Annular Tube with Outer Straight and Inner Twisted Oval Tubes
title_full_unstemmed Heat Transfer Enhancement in a Novel Annular Tube with Outer Straight and Inner Twisted Oval Tubes
title_sort heat transfer enhancement in a novel annular tube with outer straight and inner twisted oval tubes
publisher MDPI AG
series Symmetry
issn 2073-8994
publishDate 2020-07-01
description The thermal-hydraulic performance in a novel annular tube formed by outer straight and inner twisted oval tubes is numerically investigated. An annular tube formed by two straight oval tubes is also studied for comparison. Inner twisted oval tubes with different aspect ratios and twist ratios are studied. The heat transfer is well improved by the symmetrical secondary flow in the annulus. The Nusselt number generally increases when the inner oval tube becomes flatter and the twists stronger in the studied range of geometrical parameters. The largest Nusselt number <i>Nu</i> of the inner twisted tube increases by 116% while the friction factor <i>f</i> increases by only 46% compared with that of the inner straight tube, and the largest value of the thermal performance factor (<i>JF</i>) can be up to 1.9. Correlations of the Nusselt number and friction factor are proposed for laminar and turbulent flows, and the deviations of the correlations are within ±5% and ±4% for <i>Nu</i> and<i> f</i>, respectively.
topic twisted oval tube
annular tube
double-pipe heat exchanger
thermal performance
url https://www.mdpi.com/2073-8994/12/8/1213
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AT keweisong heattransferenhancementinanovelannulartubewithouterstraightandinnertwistedovaltubes
AT toshiotagawa heattransferenhancementinanovelannulartubewithouterstraightandinnertwistedovaltubes
AT tengfeiliu heattransferenhancementinanovelannulartubewithouterstraightandinnertwistedovaltubes
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