Experimental investigation of stabilization of flowing water temperature with a water-PCM heat exchanger

Experimental investigation of stabilization of flowing water temperature with a water-PCM heat exchanger

Experiments have been carried out in order to investigate the stabilization of water temperature with a water-PCM heat exchanger. The water-PCM heat exchanger was of a rather simple design. It was a round tube, through which the water flowed, surrounded with an annular layer of PCM. The heat exchan...

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Main Authors: Charvat Pavel, Stetina Josef, Pech Ondrej, Klimes Lubomir, Ostry Milan
Format: Article
Language:English
Published: EDP Sciences 2014-03-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/20146702046
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spelling doaj-59cab983c0d04631b10d8e7374352e052021-08-02T12:28:52ZengEDP SciencesEPJ Web of Conferences2100-014X2014-03-01670204610.1051/epjconf/20146702046epjconf_efm-13_02046Experimental investigation of stabilization of flowing water temperature with a water-PCM heat exchangerCharvat Pavel0Stetina Josef1Pech Ondrej2Klimes Lubomir3Ostry Milan4Brno University of Technology, Faculty of Mechanical EngineeringBrno University of Technology, Faculty of Mechanical EngineeringBrno University of Technology, Faculty of Mechanical EngineeringBrno University of Technology, Faculty of Mechanical EngineeringBrno University of Technology, Faculty of Civil Engineering Experiments have been carried out in order to investigate the stabilization of water temperature with a water-PCM heat exchanger. The water-PCM heat exchanger was of a rather simple design. It was a round tube, through which the water flowed, surrounded with an annular layer of PCM. The heat exchanger was divided into one meter long segments (modules) and the water temperature was monitored at the outlet of each of the segments. A paraffin-based PCM with the melting temperature of 42 °C was used in the experiments. The experimental set-up consisted of two water reservoirs kept at different temperatures, the water-PCM heat exchanger, PC controlled valves and a data acquisition system. As the first step a response to a step change in the water temperature at the inlet of the heat exchanger was investigated. Subsequently, a series of experiments with a square wave change of temperature at the inlet of the exchanger were carried out. The square wave temperature profile was achieved by periodic switching between the two water reservoirs. Several amplitudes and periods of temperature square wave were used. The results of experiments show that a water-PCM heat exchanger can effectively be used to stabilize the flowing water temperature when the inlet temperature changes are around the melting range of the PCM. http://dx.doi.org/10.1051/epjconf/20146702046
collection DOAJ
language English
format Article
sources DOAJ
author Charvat Pavel
Stetina Josef
Pech Ondrej
Klimes Lubomir
Ostry Milan
spellingShingle Charvat Pavel
Stetina Josef
Pech Ondrej
Klimes Lubomir
Ostry Milan
Experimental investigation of stabilization of flowing water temperature with a water-PCM heat exchanger
EPJ Web of Conferences
author_facet Charvat Pavel
Stetina Josef
Pech Ondrej
Klimes Lubomir
Ostry Milan
author_sort Charvat Pavel
title Experimental investigation of stabilization of flowing water temperature with a water-PCM heat exchanger
title_short Experimental investigation of stabilization of flowing water temperature with a water-PCM heat exchanger
title_full Experimental investigation of stabilization of flowing water temperature with a water-PCM heat exchanger
title_fullStr Experimental investigation of stabilization of flowing water temperature with a water-PCM heat exchanger
title_full_unstemmed Experimental investigation of stabilization of flowing water temperature with a water-PCM heat exchanger
title_sort experimental investigation of stabilization of flowing water temperature with a water-pcm heat exchanger
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2014-03-01
description Experiments have been carried out in order to investigate the stabilization of water temperature with a water-PCM heat exchanger. The water-PCM heat exchanger was of a rather simple design. It was a round tube, through which the water flowed, surrounded with an annular layer of PCM. The heat exchanger was divided into one meter long segments (modules) and the water temperature was monitored at the outlet of each of the segments. A paraffin-based PCM with the melting temperature of 42 °C was used in the experiments. The experimental set-up consisted of two water reservoirs kept at different temperatures, the water-PCM heat exchanger, PC controlled valves and a data acquisition system. As the first step a response to a step change in the water temperature at the inlet of the heat exchanger was investigated. Subsequently, a series of experiments with a square wave change of temperature at the inlet of the exchanger were carried out. The square wave temperature profile was achieved by periodic switching between the two water reservoirs. Several amplitudes and periods of temperature square wave were used. The results of experiments show that a water-PCM heat exchanger can effectively be used to stabilize the flowing water temperature when the inlet temperature changes are around the melting range of the PCM.
url http://dx.doi.org/10.1051/epjconf/20146702046
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AT stetinajosef experimentalinvestigationofstabilizationofflowingwatertemperaturewithawaterpcmheatexchanger
AT pechondrej experimentalinvestigationofstabilizationofflowingwatertemperaturewithawaterpcmheatexchanger
AT klimeslubomir experimentalinvestigationofstabilizationofflowingwatertemperaturewithawaterpcmheatexchanger
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