Resumé

The paper presents the full-scale experimental investigation of the dynamic heat storage potential of the prefabricated hollow core deck elements with and without phase change material (PCM) and with and without increased bottom surface area of the decks.

In the presented investigation five types of hollow core decks with different surfaces on the bottom are investigated: reference deck made of standard concrete and flat surface, deck with special mortar grooved tiles, deck with flat mortar tiles, deck with grooved mortar and phase change material tiles, deck with flat mortar and phase change material tiles.

The experimental investigation presented in the paper is performed in the specially designed modified hot box apparatus that allows maintaining periodic steady-state tests with the full-scale concrete deck elements. The presented research investigates if the extended surface area and PCM can result in the increased heat amount that can be transferred and stored in the heavy construction element during the diurnal indoor temperature fluctuations.
OriginalsprogEngelsk
TidsskriftEnergy and Buildings
Vol/bind59
Udgave nummerApril
Sider (fra-til)287-300
Antal sider14
ISSN0378-7788
DOI
StatusUdgivet - 2013

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Heat storage
Phase change materials
Tile
Mortar
Concretes
Heat transfer
Temperature

Emneord

  • Thermal Mass Activation
  • Dynamic Heat Storage
  • Latent Heat
  • Phase Change Material
  • Heat Transfer Enhancement

Citer dette

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title = "Full Scale Investigation of the Dynamic Heat Storage of Concrete Decks with PCM and Enhanced Heat Transfer Surface Area",
abstract = "The paper presents the full-scale experimental investigation of the dynamic heat storage potential of the prefabricated hollow core deck elements with and without phase change material (PCM) and with and without increased bottom surface area of the decks.In the presented investigation five types of hollow core decks with different surfaces on the bottom are investigated: reference deck made of standard concrete and flat surface, deck with special mortar grooved tiles, deck with flat mortar tiles, deck with grooved mortar and phase change material tiles, deck with flat mortar and phase change material tiles.The experimental investigation presented in the paper is performed in the specially designed modified hot box apparatus that allows maintaining periodic steady-state tests with the full-scale concrete deck elements. The presented research investigates if the extended surface area and PCM can result in the increased heat amount that can be transferred and stored in the heavy construction element during the diurnal indoor temperature fluctuations.",
keywords = "Thermal Mass Activation, Dynamic Heat Storage, Latent Heat, Phase Change Material, Heat Transfer Enhancement, Thermal Mass Activation, Dynamic Heat Storage, Latent Heat, Phase Change Material, Heat Transfer Enhancement",
author = "Pomianowski, {Michal Zbigniew} and Per Heiselberg and Jensen, {Rasmus Lund}",
year = "2013",
doi = "10.1016/j.enbuild.2012.12.013",
language = "English",
volume = "59",
pages = "287--300",
journal = "Energy and Buildings",
issn = "0378-7788",
publisher = "Elsevier",
number = "April",

}

TY - JOUR

T1 - Full Scale Investigation of the Dynamic Heat Storage of Concrete Decks with PCM and Enhanced Heat Transfer Surface Area

AU - Pomianowski, Michal Zbigniew

AU - Heiselberg, Per

AU - Jensen, Rasmus Lund

PY - 2013

Y1 - 2013

N2 - The paper presents the full-scale experimental investigation of the dynamic heat storage potential of the prefabricated hollow core deck elements with and without phase change material (PCM) and with and without increased bottom surface area of the decks.In the presented investigation five types of hollow core decks with different surfaces on the bottom are investigated: reference deck made of standard concrete and flat surface, deck with special mortar grooved tiles, deck with flat mortar tiles, deck with grooved mortar and phase change material tiles, deck with flat mortar and phase change material tiles.The experimental investigation presented in the paper is performed in the specially designed modified hot box apparatus that allows maintaining periodic steady-state tests with the full-scale concrete deck elements. The presented research investigates if the extended surface area and PCM can result in the increased heat amount that can be transferred and stored in the heavy construction element during the diurnal indoor temperature fluctuations.

AB - The paper presents the full-scale experimental investigation of the dynamic heat storage potential of the prefabricated hollow core deck elements with and without phase change material (PCM) and with and without increased bottom surface area of the decks.In the presented investigation five types of hollow core decks with different surfaces on the bottom are investigated: reference deck made of standard concrete and flat surface, deck with special mortar grooved tiles, deck with flat mortar tiles, deck with grooved mortar and phase change material tiles, deck with flat mortar and phase change material tiles.The experimental investigation presented in the paper is performed in the specially designed modified hot box apparatus that allows maintaining periodic steady-state tests with the full-scale concrete deck elements. The presented research investigates if the extended surface area and PCM can result in the increased heat amount that can be transferred and stored in the heavy construction element during the diurnal indoor temperature fluctuations.

KW - Thermal Mass Activation

KW - Dynamic Heat Storage

KW - Latent Heat

KW - Phase Change Material

KW - Heat Transfer Enhancement

KW - Thermal Mass Activation

KW - Dynamic Heat Storage

KW - Latent Heat

KW - Phase Change Material

KW - Heat Transfer Enhancement

U2 - 10.1016/j.enbuild.2012.12.013

DO - 10.1016/j.enbuild.2012.12.013

M3 - Journal article

VL - 59

SP - 287

EP - 300

JO - Energy and Buildings

JF - Energy and Buildings

SN - 0378-7788

IS - April

ER -