Numerical analysis of the influence of circuit arrangement on a fin-and-tube condenser performance

Numerical analysis of the influence of circuit arrangement on a fin-and-tube condenser performance

In the present paper a model for the steady-state simulation of fin-and-tube condenser is developed. The model is based on a finite volume approach that divides each tube into small elemental volumes where mass, momentum and energy conservation equations are solved using the effectiveness-NTU method...

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Main Authors: Cesare Maria Joppolo, Luca Molinaroli, Alberto Pasini
Format: Article
Language:English
Published: Elsevier 2015-09-01
Series:Case Studies in Thermal Engineering
Subjects:
Charge
Circuitry
Condenser
Heat transfer rate
Modelling
Pressure drop
Online Access:http://www.sciencedirect.com/science/article/pii/S2214157X15300083
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spelling doaj-33741ded700049e0ac577500b5ce848e2020-11-24T22:38:49ZengElsevierCase Studies in Thermal Engineering2214-157X2015-09-016C13614610.1016/j.csite.2015.09.002Numerical analysis of the influence of circuit arrangement on a fin-and-tube condenser performanceCesare Maria JoppoloLuca MolinaroliAlberto PasiniIn the present paper a model for the steady-state simulation of fin-and-tube condenser is developed. The model is based on a finite volume approach that divides each tube into small elemental volumes where mass, momentum and energy conservation equations are solved using the effectiveness-NTU method and with appropriate correlations for void fraction, friction factor and heat transfer coefficient calculation. The model is validated against experimental data on two small condensers finding that the calculated heat transfer rate and refrigerant-side pressure drop agree within ±5% and ±21% respectively to the experimental values. The model is then used to numerically analyse the impact of different circuit arrangements on the condenser heat transfer rate, refrigerant-side pressure drop and refrigerant charge.http://www.sciencedirect.com/science/article/pii/S2214157X15300083ChargeCircuitryCondenserHeat transfer rateModellingPressure drop
collection DOAJ
language English
format Article
sources DOAJ
author Cesare Maria Joppolo
Luca Molinaroli
Alberto Pasini
spellingShingle Cesare Maria Joppolo
Luca Molinaroli
Alberto Pasini
Numerical analysis of the influence of circuit arrangement on a fin-and-tube condenser performance
Case Studies in Thermal Engineering
Charge
Circuitry
Condenser
Heat transfer rate
Modelling
Pressure drop
author_facet Cesare Maria Joppolo
Luca Molinaroli
Alberto Pasini
author_sort Cesare Maria Joppolo
title Numerical analysis of the influence of circuit arrangement on a fin-and-tube condenser performance
title_short Numerical analysis of the influence of circuit arrangement on a fin-and-tube condenser performance
title_full Numerical analysis of the influence of circuit arrangement on a fin-and-tube condenser performance
title_fullStr Numerical analysis of the influence of circuit arrangement on a fin-and-tube condenser performance
title_full_unstemmed Numerical analysis of the influence of circuit arrangement on a fin-and-tube condenser performance
title_sort numerical analysis of the influence of circuit arrangement on a fin-and-tube condenser performance
publisher Elsevier
series Case Studies in Thermal Engineering
issn 2214-157X
publishDate 2015-09-01
description In the present paper a model for the steady-state simulation of fin-and-tube condenser is developed. The model is based on a finite volume approach that divides each tube into small elemental volumes where mass, momentum and energy conservation equations are solved using the effectiveness-NTU method and with appropriate correlations for void fraction, friction factor and heat transfer coefficient calculation. The model is validated against experimental data on two small condensers finding that the calculated heat transfer rate and refrigerant-side pressure drop agree within ±5% and ±21% respectively to the experimental values. The model is then used to numerically analyse the impact of different circuit arrangements on the condenser heat transfer rate, refrigerant-side pressure drop and refrigerant charge.
topic Charge
Circuitry
Condenser
Heat transfer rate
Modelling
Pressure drop
url http://www.sciencedirect.com/science/article/pii/S2214157X15300083
work_keys_str_mv AT cesaremariajoppolo numericalanalysisoftheinfluenceofcircuitarrangementonafinandtubecondenserperformance
AT lucamolinaroli numericalanalysisoftheinfluenceofcircuitarrangementonafinandtubecondenserperformance
AT albertopasini numericalanalysisoftheinfluenceofcircuitarrangementonafinandtubecondenserperformance
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