Computational Model to Evaluate the Effect of Passive Techniques in Tube-In-Tube Helical Heat Exchanger

Computational Model to Evaluate the Effect of Passive Techniques in Tube-In-Tube Helical Heat Exchanger

The purpose of this research is to evaluate the effect of twist in the internal tube in a tube-in-tube helical heat exchanger keeping constant one type of ridges. To meet this goal, a Computational Fluid Dynamic (CFD) model was carried out. The effects of the fluid flow rate on the heat transfer wer...

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Main Authors: Miyer Valdes, Juan G. Ardila, Dario Colorado, Beatris A. Escobedo-Trujillo
Format: Article
Language:English
Published: MDPI AG 2019-05-01
Series:Energies
Subjects:
computational fluid dynamics
heat transfer
temperature contour
Online Access:https://www.mdpi.com/1996-1073/12/10/1912
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spelling doaj-3a39be807e9b467da708ac0b9f6162c42020-11-25T02:16:48ZengMDPI AGEnergies1996-10732019-05-011210191210.3390/en12101912en12101912Computational Model to Evaluate the Effect of Passive Techniques in Tube-In-Tube Helical Heat ExchangerMiyer Valdes0Juan G. Ardila1Dario Colorado2Beatris A. Escobedo-Trujillo3Instituto Tecnológico Metropolitano, Departamento de Electrómecanica, Calle 54<sup>a</sup> No. 30-01, Medellin P.A. 050013, ColombiaInstituto Tecnológico Metropolitano, Departamento de Electrómecanica, Calle 54<sup>a</sup> No. 30-01, Medellin P.A. 050013, ColombiaCentro de Investigación en Recursos Energéticos y Sustentables, Universidad Veracruzana, Av. Universidad km 7.5, Col. Santa Isabel, Coatzacoalcos C.P. 96535, MexicoFacultad de Ingeniería, Universidad Veracruzana, Av. Universidad km 7.5, Col. Santa Isabel, Coatzacoalcos C.P. 96535, MexicoThe purpose of this research is to evaluate the effect of twist in the internal tube in a tube-in-tube helical heat exchanger keeping constant one type of ridges. To meet this goal, a Computational Fluid Dynamic (CFD) model was carried out. The effects of the fluid flow rate on the heat transfer were studied in the internal and annular flow. A commercial CFD package was used to predict the flow and thermal development in a tube-in-tube helical heat exchanger. The simulations were carried out in counter-flow mode operation with hot fluid in the internal tube side and cold fluids in the annular flow. The internal tube was modified with a double passive technique to provide high turbulence in the outer region. The numerical results agree with the reported data, the use of only one passive technique in the internal tube increases the heat transfer up to 28.8% compared to smooth tube.https://www.mdpi.com/1996-1073/12/10/1912computational fluid dynamicsheat transfertemperature contour
collection DOAJ
language English
format Article
sources DOAJ
author Miyer Valdes
Juan G. Ardila
Dario Colorado
Beatris A. Escobedo-Trujillo
spellingShingle Miyer Valdes
Juan G. Ardila
Dario Colorado
Beatris A. Escobedo-Trujillo
Computational Model to Evaluate the Effect of Passive Techniques in Tube-In-Tube Helical Heat Exchanger
Energies
computational fluid dynamics
heat transfer
temperature contour
author_facet Miyer Valdes
Juan G. Ardila
Dario Colorado
Beatris A. Escobedo-Trujillo
author_sort Miyer Valdes
title Computational Model to Evaluate the Effect of Passive Techniques in Tube-In-Tube Helical Heat Exchanger
title_short Computational Model to Evaluate the Effect of Passive Techniques in Tube-In-Tube Helical Heat Exchanger
title_full Computational Model to Evaluate the Effect of Passive Techniques in Tube-In-Tube Helical Heat Exchanger
title_fullStr Computational Model to Evaluate the Effect of Passive Techniques in Tube-In-Tube Helical Heat Exchanger
title_full_unstemmed Computational Model to Evaluate the Effect of Passive Techniques in Tube-In-Tube Helical Heat Exchanger
title_sort computational model to evaluate the effect of passive techniques in tube-in-tube helical heat exchanger
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2019-05-01
description The purpose of this research is to evaluate the effect of twist in the internal tube in a tube-in-tube helical heat exchanger keeping constant one type of ridges. To meet this goal, a Computational Fluid Dynamic (CFD) model was carried out. The effects of the fluid flow rate on the heat transfer were studied in the internal and annular flow. A commercial CFD package was used to predict the flow and thermal development in a tube-in-tube helical heat exchanger. The simulations were carried out in counter-flow mode operation with hot fluid in the internal tube side and cold fluids in the annular flow. The internal tube was modified with a double passive technique to provide high turbulence in the outer region. The numerical results agree with the reported data, the use of only one passive technique in the internal tube increases the heat transfer up to 28.8% compared to smooth tube.
topic computational fluid dynamics
heat transfer
temperature contour
url https://www.mdpi.com/1996-1073/12/10/1912
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AT dariocolorado computationalmodeltoevaluatetheeffectofpassivetechniquesintubeintubehelicalheatexchanger
AT beatrisaescobedotrujillo computationalmodeltoevaluatetheeffectofpassivetechniquesintubeintubehelicalheatexchanger
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