Multiscale modeling of thermal properties in Polyurethane incorporated with phase change materials composites: A case study

Bokai Liu; Weizhuo Lu; Xiaoyue Hu; Chao Zhang; Cuixia Wang; Yilin Qu; Thomas Olofsson

Multiscale modeling of thermal properties in Polyurethane incorporated with phase change materials composites: A case study

Bokai Liu, Weizhuo Lu, Xiaoyue Hu, Chao Zhang, Cuixia Wang, Yilin Qu, Thomas Olofsson

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Polyurethane (PU) is an ideal thermal insulation material due to its excellent thermal properties. The incorporation of Phase Change Materials (PCMs) capsules into Polyurethane (PU) has been shown to be effective in building envelopes. This design can significantly increase the stability of the indoor thermal environment and reduce the fluctuation of indoor air temperature. We develop a multiscale model of a PU-PCM foam composite and study the thermal conductivity of this material. Later, the design of materials can be optimized by obtaining thermal conductivity. We conduct a case study based on the performance of this optimized material to fully consider the thermal comfort of the occupants of a building envelope with the application of PU-PCMs composites in a single room. At the same time, we also predict the energy consumption of this case. All the outcomes show that this design is promising, enabling the passive design of building energy and significantly improving occupants' comfort.

Original language	English
Title of host publication	Healthy Buildings Europe 2023
Subtitle of host publication	Beyond Disciplinary Boundaries
Publisher	International Society of Indoor Air Quality and Climate
Pages	923-929
Number of pages	7
ISBN (Electronic)	9781713877158
State	Published - 2023
Externally published	Yes
Event	18th Healthy Buildings Europe Conference 2023: Beyond Disciplinary Boundaries - Aachen, Germany Duration: 11 Jun 2023 → 14 Jun 2023

Publication series

Name	Healthy Buildings Europe 2023: Beyond Disciplinary Boundaries
Volume	2

Conference

Conference	18th Healthy Buildings Europe Conference 2023: Beyond Disciplinary Boundaries
Country/Territory	Germany
City	Aachen
Period	11/06/23 → 14/06/23

Keywords

Building energy
Multiscale modelling
Phase Change Materials (PCMs)
Polyurethane (PU)
Thermal properties

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

Liu, B., Lu, W., Hu, X., Zhang, C., Wang, C., Qu, Y., & Olofsson, T. (2023). Multiscale modeling of thermal properties in Polyurethane incorporated with phase change materials composites: A case study. In Healthy Buildings Europe 2023: Beyond Disciplinary Boundaries (pp. 923-929). (Healthy Buildings Europe 2023: Beyond Disciplinary Boundaries; Vol. 2). International Society of Indoor Air Quality and Climate.

Liu, Bokai ; Lu, Weizhuo ; Hu, Xiaoyue et al. / Multiscale modeling of thermal properties in Polyurethane incorporated with phase change materials composites : A case study. Healthy Buildings Europe 2023: Beyond Disciplinary Boundaries. International Society of Indoor Air Quality and Climate, 2023. pp. 923-929 (Healthy Buildings Europe 2023: Beyond Disciplinary Boundaries).

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title = "Multiscale modeling of thermal properties in Polyurethane incorporated with phase change materials composites: A case study",

abstract = "Polyurethane (PU) is an ideal thermal insulation material due to its excellent thermal properties. The incorporation of Phase Change Materials (PCMs) capsules into Polyurethane (PU) has been shown to be effective in building envelopes. This design can significantly increase the stability of the indoor thermal environment and reduce the fluctuation of indoor air temperature. We develop a multiscale model of a PU-PCM foam composite and study the thermal conductivity of this material. Later, the design of materials can be optimized by obtaining thermal conductivity. We conduct a case study based on the performance of this optimized material to fully consider the thermal comfort of the occupants of a building envelope with the application of PU-PCMs composites in a single room. At the same time, we also predict the energy consumption of this case. All the outcomes show that this design is promising, enabling the passive design of building energy and significantly improving occupants' comfort.",

keywords = "Building energy, Multiscale modelling, Phase Change Materials (PCMs), Polyurethane (PU), Thermal properties",

author = "Bokai Liu and Weizhuo Lu and Xiaoyue Hu and Chao Zhang and Cuixia Wang and Yilin Qu and Thomas Olofsson",

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year = "2023",

language = "英语",

series = "Healthy Buildings Europe 2023: Beyond Disciplinary Boundaries",

publisher = "International Society of Indoor Air Quality and Climate",

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Liu, B, Lu, W, Hu, X, Zhang, C, Wang, C, Qu, Y & Olofsson, T 2023, Multiscale modeling of thermal properties in Polyurethane incorporated with phase change materials composites: A case study. in Healthy Buildings Europe 2023: Beyond Disciplinary Boundaries. Healthy Buildings Europe 2023: Beyond Disciplinary Boundaries, vol. 2, International Society of Indoor Air Quality and Climate, pp. 923-929, 18th Healthy Buildings Europe Conference 2023: Beyond Disciplinary Boundaries, Aachen, Germany, 11/06/23.

Multiscale modeling of thermal properties in Polyurethane incorporated with phase change materials composites: A case study. / Liu, Bokai; Lu, Weizhuo; Hu, Xiaoyue et al.
Healthy Buildings Europe 2023: Beyond Disciplinary Boundaries. International Society of Indoor Air Quality and Climate, 2023. p. 923-929 (Healthy Buildings Europe 2023: Beyond Disciplinary Boundaries; Vol. 2).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T2 - 18th Healthy Buildings Europe Conference 2023: Beyond Disciplinary Boundaries

AU - Liu, Bokai

AU - Lu, Weizhuo

AU - Hu, Xiaoyue

AU - Zhang, Chao

AU - Wang, Cuixia

AU - Qu, Yilin

AU - Olofsson, Thomas

PY - 2023

Y1 - 2023

N2 - Polyurethane (PU) is an ideal thermal insulation material due to its excellent thermal properties. The incorporation of Phase Change Materials (PCMs) capsules into Polyurethane (PU) has been shown to be effective in building envelopes. This design can significantly increase the stability of the indoor thermal environment and reduce the fluctuation of indoor air temperature. We develop a multiscale model of a PU-PCM foam composite and study the thermal conductivity of this material. Later, the design of materials can be optimized by obtaining thermal conductivity. We conduct a case study based on the performance of this optimized material to fully consider the thermal comfort of the occupants of a building envelope with the application of PU-PCMs composites in a single room. At the same time, we also predict the energy consumption of this case. All the outcomes show that this design is promising, enabling the passive design of building energy and significantly improving occupants' comfort.

AB - Polyurethane (PU) is an ideal thermal insulation material due to its excellent thermal properties. The incorporation of Phase Change Materials (PCMs) capsules into Polyurethane (PU) has been shown to be effective in building envelopes. This design can significantly increase the stability of the indoor thermal environment and reduce the fluctuation of indoor air temperature. We develop a multiscale model of a PU-PCM foam composite and study the thermal conductivity of this material. Later, the design of materials can be optimized by obtaining thermal conductivity. We conduct a case study based on the performance of this optimized material to fully consider the thermal comfort of the occupants of a building envelope with the application of PU-PCMs composites in a single room. At the same time, we also predict the energy consumption of this case. All the outcomes show that this design is promising, enabling the passive design of building energy and significantly improving occupants' comfort.

KW - Building energy

KW - Multiscale modelling

KW - Phase Change Materials (PCMs)

KW - Polyurethane (PU)

KW - Thermal properties

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M3 - 会议稿件

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T3 - Healthy Buildings Europe 2023: Beyond Disciplinary Boundaries

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BT - Healthy Buildings Europe 2023

PB - International Society of Indoor Air Quality and Climate

Y2 - 11 June 2023 through 14 June 2023

ER -

Liu B, Lu W, Hu X, Zhang C, Wang C, Qu Y et al. Multiscale modeling of thermal properties in Polyurethane incorporated with phase change materials composites: A case study. In Healthy Buildings Europe 2023: Beyond Disciplinary Boundaries. International Society of Indoor Air Quality and Climate. 2023. p. 923-929. (Healthy Buildings Europe 2023: Beyond Disciplinary Boundaries).

Multiscale modeling of thermal properties in Polyurethane incorporated with phase change materials composites: A case study

Abstract

Publication series

Conference

Keywords

UN SDGs

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