Publication detail
An optimization study into thermally activated wall system with latent heat thermal energy storage
KLIMEŠ, L. CHARVÁT, P. OSTRÝ, M.
English title
An optimization study into thermally activated wall system with latent heat thermal energy storage
Type
conference paper
Language
en
Original abstract
Thermally activated building structures with latent heat thermal energy storage (LHTES) are relatively new elements of building thermal energy systems. The system considered in the present study involved lightweight wall panels with a plaster containing a microencapsulated phase change material (PCM). The polyethylene tubes of small diameter for heat transfer fluid were embedded in the plaster. The wall panel system could be used for both heating and cooling. The PCM provided short-term thermal energy storage in case of intermittent supply of heat and cold (e.g. in case of a PV powered heat pump). A 1D computer model of the wall system was developed and implemented as a TRNSYS type. Consequently, an optimization model based on the 1D model of the system was developed. The optimization model employed a metaheuristic particle swarm optimization method. The aim of the optimization was to determine the position of the tubes for HTF, relative to the surface of the panel, that would provide fast thermal response and, at the same time, high amount of stored heat. The optimization was performed for heating operation.
English abstract
Thermally activated building structures with latent heat thermal energy storage (LHTES) are relatively new elements of building thermal energy systems. The system considered in the present study involved lightweight wall panels with a plaster containing a microencapsulated phase change material (PCM). The polyethylene tubes of small diameter for heat transfer fluid were embedded in the plaster. The wall panel system could be used for both heating and cooling. The PCM provided short-term thermal energy storage in case of intermittent supply of heat and cold (e.g. in case of a PV powered heat pump). A 1D computer model of the wall system was developed and implemented as a TRNSYS type. Consequently, an optimization model based on the 1D model of the system was developed. The optimization model employed a metaheuristic particle swarm optimization method. The aim of the optimization was to determine the position of the tubes for HTF, relative to the surface of the panel, that would provide fast thermal response and, at the same time, high amount of stored heat. The optimization was performed for heating operation.
Keywords in English
Thermally activated building structures; TRNSYS; Phase change material; Optimization; Metaheuristics
Released
14.03.2019
Publisher
IOP Publishing
ISSN
1755-1307
Book
Selected papers from the ASIM 2018 conference
Volume
238
Number
012016
Pages from–to
1–6
Pages count
6
BIBTEX
@inproceedings{BUT151936,
author="Lubomír {Klimeš} and Pavel {Charvát} and Milan {Ostrý},
title="An optimization study into thermally activated wall system with latent heat thermal energy storage",
booktitle="Selected papers from the ASIM 2018 conference",
year="2019",
volume="238",
number="012016",
month="March",
pages="1--6",
publisher="IOP Publishing",
issn="1755-1307"
}