Publication result detail
Thermal Properties of MOC Composites with Polymer Shell Encapsulated Phase Change Material "Micronal"
ZMEŠKAL, O.; LAPČÍKOVÁ, T.; POSPÍŠIL, J.; MARÁČKOVÁ, L.; PAVLÍKOVÁ, M.; PAVLÍK, Z.
Original Title
Thermal Properties of MOC Composites with Polymer Shell Encapsulated Phase Change Material "Micronal"
English Title
Thermal Properties of MOC Composites with Polymer Shell Encapsulated Phase Change Material "Micronal"
Type
Scopus Article
Original Abstract
Measurement and assessment of thermo-physical properties of magnesium oxychloride cement (MOC) with implemented phase change material based on paraffin wax encapsulated in polymer shell, is presented in the paper. The measurement method and mathematical interpretation of thermal conductivity and specific heat capacity assessment was derived from the Thermophysical Transient Tester 1.02 that was developed at the Institute of Physics, Slovak Academy of Sciences. Within the test, thermal responses between two thermal sources were measured during the step wise heat reference source and source generating step wise heat. It was revealed that both investigated thermal parameters depend on the dosage of PCM in composite mixture, thus porosity of prepared materials and thermal characteristics of PCM itself. The obtained data point to the substantial improvement of heat storage capacity of MOC by the use of powdered PCM.
English abstract
Measurement and assessment of thermo-physical properties of magnesium oxychloride cement (MOC) with implemented phase change material based on paraffin wax encapsulated in polymer shell, is presented in the paper. The measurement method and mathematical interpretation of thermal conductivity and specific heat capacity assessment was derived from the Thermophysical Transient Tester 1.02 that was developed at the Institute of Physics, Slovak Academy of Sciences. Within the test, thermal responses between two thermal sources were measured during the step wise heat reference source and source generating step wise heat. It was revealed that both investigated thermal parameters depend on the dosage of PCM in composite mixture, thus porosity of prepared materials and thermal characteristics of PCM itself. The obtained data point to the substantial improvement of heat storage capacity of MOC by the use of powdered PCM.
Keywords
Thermal conductivity; Doping; Thermodynamic properties; Graphene; Materials properties; Cement; Polymers; Nanoplatelet; Nanoparticle
Key words in English
Thermal conductivity; Doping; Thermodynamic properties; Graphene; Materials properties; Cement; Polymers; Nanoplatelet; Nanoparticle
Authors
ZMEŠKAL, O.; LAPČÍKOVÁ, T.; POSPÍŠIL, J.; MARÁČKOVÁ, L.; PAVLÍKOVÁ, M.; PAVLÍK, Z.
RIV year
2025
Released
01.09.2023
Publisher
AIP Publishing
ISBN
1551-7616
Periodical
AIP conference proceedings
Volume
2024
Number
3094
State
United States of America
Pages from
1
Pages to
4
Pages count
4
URL
BibTex
@article{BUT197244,
author="Oldřich {Zmeškal} and Tereza {Lapčíková} and Lucie {Maráčková} and Milena {Pavlíková} and Zbyšek {Pavlík}",
title="Thermal Properties of MOC Composites with Polymer Shell Encapsulated Phase Change Material {"}Micronal{"}",
journal="AIP conference proceedings",
year="2023",
volume="2024",
number="3094",
pages="1--4",
doi="10.1063/5.0210400",
issn="0094-243X",
url="https://pubs.aip.org/aip/acp/article/3094/1/070006/3296974/Thermal-properties-of-MOC-composites-with-polymer"
}