Determination of Equivalent Thermal Conductivity of Window Spacers in Consideration of Condensation Prevention and Energy Saving Performance

This study investigated the impact of thermally improved spacers (TISs) on the condensation prevention and energy saving performances of residential windows. The temperature factor and total U-value were analyzed with the two-box model, by which the TISs are represented with the equivalent thermal c...

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Veröffentlicht in:	Energies (Basel) 2017-05, Vol.10 (5), p.717
Hauptverfasser:	Shin, Mi-Su, Rhee, Kyu-Nam, Yu, Ji-Yong, Jung, Gun-Joo
Format:	Artikel
Sprache:	eng
Schlagworte:	Buildings Computer simulation Condensation Criteria Energy conservation Energy consumption Heat Heat conductivity Heat loss Heat transfer Heating Prevention Product development Residential energy Spacers Temperature effects Thermal conductivity
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container_title	Energies (Basel)
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creator	Shin, Mi-Su Rhee, Kyu-Nam Yu, Ji-Yong Jung, Gun-Joo
description	This study investigated the impact of thermally improved spacers (TISs) on the condensation prevention and energy saving performances of residential windows. The temperature factor and total U-value were analyzed with the two-box model, by which the TISs are represented with the equivalent thermal conductivity. The results showed that the TISs could increase the temperature factor by up to 12%, and this significantly improved the condensation prevention performance. In addition, it was proved that the TIS enables the prevention of the condensation at an outdoor temperature that is 4.2 °C to 15.7 °C lower compared with the conventional spacer. Also, it was shown that the TISs reduce the total U-value by an amount from 0.07 W/m2K to 0.12 W/m2K, implying that the heat loss through the window is reduced by a rate from 2.8% to 8.2%. In addition, the results of the whole building energy simulation proved that the TISs can reduce the annual heating-energy consumption by a rate from 3.0% to 6.3%. The results were then used for the development of monographs to determine the equivalent thermal conductivity of a window spacer that can meet the performance criteria in terms of condensation prevention and energy saving.
doi_str_mv	10.3390/en10050717
format	Article
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The temperature factor and total U-value were analyzed with the two-box model, by which the TISs are represented with the equivalent thermal conductivity. The results showed that the TISs could increase the temperature factor by up to 12%, and this significantly improved the condensation prevention performance. In addition, it was proved that the TIS enables the prevention of the condensation at an outdoor temperature that is 4.2 °C to 15.7 °C lower compared with the conventional spacer. Also, it was shown that the TISs reduce the total U-value by an amount from 0.07 W/m2K to 0.12 W/m2K, implying that the heat loss through the window is reduced by a rate from 2.8% to 8.2%. In addition, the results of the whole building energy simulation proved that the TISs can reduce the annual heating-energy consumption by a rate from 3.0% to 6.3%. The results were then used for the development of monographs to determine the equivalent thermal conductivity of a window spacer that can meet the performance criteria in terms of condensation prevention and energy saving.</abstract><cop>Basel</cop><pub>MDPI AG</pub><doi>10.3390/en10050717</doi><oa>free_for_read</oa></addata></record>
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source	DOAJ Directory of Open Access Journals; MDPI - Multidisciplinary Digital Publishing Institute; EZB-FREE-00999 freely available EZB journals
subjects	Buildings Computer simulation Condensation Criteria Energy conservation Energy consumption Heat Heat conductivity Heat loss Heat transfer Heating Prevention Product development Residential energy Spacers Temperature effects Thermal conductivity
title	Determination of Equivalent Thermal Conductivity of Window Spacers in Consideration of Condensation Prevention and Energy Saving Performance
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