Solar control solutions for reducing overheating risks in retrofitted Danish apartment buildings from the period 1850- 1900 – A simulation-based study
Advancing energy efficient renovation solutions in residential buildings necessitate adopting high-insulation and airtightness to avoid heat loss through transmission and infiltration, which can result in overheating. Elevated indoor temperatures have been proved to have a highly negative effect on...
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EDP Sciences
2019-01-01
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doaj-9406c24b16014200815c139504a06f772021-02-02T02:06:13ZengEDP SciencesE3S Web of Conferences2267-12422019-01-011110305110.1051/e3sconf/201911103051e3sconf_clima2019_03051Solar control solutions for reducing overheating risks in retrofitted Danish apartment buildings from the period 1850- 1900 – A simulation-based studyZukowska DariaAnanida MyrtoKolarik JakubSarey Khanie MandanaRammer Nielsen TokeAdvancing energy efficient renovation solutions in residential buildings necessitate adopting high-insulation and airtightness to avoid heat loss through transmission and infiltration, which can result in overheating. Elevated indoor temperatures have been proved to have a highly negative effect on occupants’ health and well-being. Energy efficient solutions to the problem with overheating include limiting the solar heat gains through the glazed parts of the facade and effective ventilation. A typical Danish residential apartment building from 1850-1900 recently refurbished, was modelled with five different solar shading devices and three typical ventilation solutions. External solar shading could efficiently reduce overheating below the limits specified by the national building regulations in all tested cases. The marquisolette reduced the number of occupied hours with temperature above 27 °C by min. 85%, the external venetian blinds by min. 81%, and the drop arm awning by min. 74% compared to the situation without solar shading. The internal solar shading as venetian blinds and roller blind could reduce the overheating hours by 20-40%, which was efficient only in combination with mechanical ventilation in case of south and east building orientations.https://www.e3s-conferences.org/articles/e3sconf/pdf/2019/37/e3sconf_clima2019_03051.pdf |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Zukowska Daria Ananida Myrto Kolarik Jakub Sarey Khanie Mandana Rammer Nielsen Toke |
spellingShingle |
Zukowska Daria Ananida Myrto Kolarik Jakub Sarey Khanie Mandana Rammer Nielsen Toke Solar control solutions for reducing overheating risks in retrofitted Danish apartment buildings from the period 1850- 1900 – A simulation-based study E3S Web of Conferences |
author_facet |
Zukowska Daria Ananida Myrto Kolarik Jakub Sarey Khanie Mandana Rammer Nielsen Toke |
author_sort |
Zukowska Daria |
title |
Solar control solutions for reducing overheating risks in retrofitted Danish apartment buildings from the period 1850- 1900 – A simulation-based study |
title_short |
Solar control solutions for reducing overheating risks in retrofitted Danish apartment buildings from the period 1850- 1900 – A simulation-based study |
title_full |
Solar control solutions for reducing overheating risks in retrofitted Danish apartment buildings from the period 1850- 1900 – A simulation-based study |
title_fullStr |
Solar control solutions for reducing overheating risks in retrofitted Danish apartment buildings from the period 1850- 1900 – A simulation-based study |
title_full_unstemmed |
Solar control solutions for reducing overheating risks in retrofitted Danish apartment buildings from the period 1850- 1900 – A simulation-based study |
title_sort |
solar control solutions for reducing overheating risks in retrofitted danish apartment buildings from the period 1850- 1900 – a simulation-based study |
publisher |
EDP Sciences |
series |
E3S Web of Conferences |
issn |
2267-1242 |
publishDate |
2019-01-01 |
description |
Advancing energy efficient renovation solutions in residential buildings necessitate adopting high-insulation and airtightness to avoid heat loss through transmission and infiltration, which can result in overheating. Elevated indoor temperatures have been proved to have a highly negative effect on occupants’ health and well-being. Energy efficient solutions to the problem with overheating include limiting the solar heat gains through the glazed parts of the facade and effective ventilation. A typical Danish residential apartment building from 1850-1900 recently refurbished, was modelled with five different solar shading devices and three typical ventilation solutions. External solar shading could efficiently reduce overheating below the limits specified by the national building regulations in all tested cases. The marquisolette reduced the number of occupied hours with temperature above 27 °C by min. 85%, the external venetian blinds by min. 81%, and the drop arm awning by min. 74% compared to the situation without solar shading. The internal solar shading as venetian blinds and roller blind could reduce the overheating hours by 20-40%, which was efficient only in combination with mechanical ventilation in case of south and east building orientations. |
url |
https://www.e3s-conferences.org/articles/e3sconf/pdf/2019/37/e3sconf_clima2019_03051.pdf |
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