Optimizing the design of retirement homes concerning the indoor environment, energy efficiency, and climate change resiliency

Julie  Lindgaard Hald; Daria Zukowska-Tejsen; Jakub Kolarik

Optimizing the design of retirement homes concerning the indoor environment, energy efficiency, and climate change resiliency

Julie Lindgaard Hald, Daria Zukowska-Tejsen, Jakub Kolarik^*

^*Corresponding author for this work

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

Abstract

This study explored the design optimization possibilities for Danish retirement homes while considering an increased risk of overheating due to elevated temperatures imposed by climate change. The focus was on combinations of design features and technical components ensuring thermal comfort and daylight. The study used a dynamic simulation tool to consider the current Danish design reference year and future climate predictions. The results indicate that using predicted climate data for 2050 could reduce overheating degree hours by 80% due to predicted direct solar radiation discrepancies. The study suggests using heatwave data to assess occupants' heat exposure. Design measures such as solar control coating on glazing reduced overheating by up to 53% while reducing daylight and increasing heating energy consumption. Ventilation hatches provided increased airflow and mitigated overheating without increasing energy consumption. A combination of static shading, solar control coating, and natural ventilation was sufficient for south-facing windows, but dynamic shading was necessary for east and west-facing windows.

Original language	English
Title of host publication	44^th AIVC conference : Retrofitting the Building Stock: Challenges and Opportunities for Indoor Environmental Quality
Publisher	AIVC
Pages	583-584
Publication status	Accepted/In press - 2025
Event	44^th AIVC conference: Retrofitting the Building Stock: Challenges and Opportunities for Indoor Environmental Quality - Croke Park, Dublin Duration: 9 Oct 2024 → 10 Oct 2024

Conference

Conference	44^th AIVC conference
Location	Croke Park
City	Dublin
Period	09/10/2024 → 10/10/2024

Keywords

Thermal comfort
Daylight autonomy
Elderly home
Design optimization
Climate change

UN SDGs

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

Cite this

@inproceedings{2d680c414bb446208d5d1fe32af835c7,

title = "Optimizing the design of retirement homes concerning the indoor environment, energy efficiency, and climate change resiliency",

abstract = "This study explored the design optimization possibilities for Danish retirement homes while considering an increased risk of overheating due to elevated temperatures imposed by climate change. The focus was on combinations of design features and technical components ensuring thermal comfort and daylight. The study used a dynamic simulation tool to consider the current Danish design reference year and future climate predictions. The results indicate that using predicted climate data for 2050 could reduce overheating degree hours by 80% due to predicted direct solar radiation discrepancies. The study suggests using heatwave data to assess occupants' heat exposure. Design measures such as solar control coating on glazing reduced overheating by up to 53% while reducing daylight and increasing heating energy consumption. Ventilation hatches provided increased airflow and mitigated overheating without increasing energy consumption. A combination of static shading, solar control coating, and natural ventilation was sufficient for south-facing windows, but dynamic shading was necessary for east and west-facing windows.",

keywords = "Thermal comfort, Daylight autonomy, Elderly home, Design optimization, Climate change",

author = "{Lindgaard Hald}, Julie and Daria Zukowska-Tejsen and Jakub Kolarik",

year = "2025",

language = "English",

pages = "583--584",

booktitle = "44th AIVC conference",

publisher = "AIVC",

note = "44<sup>th</sup> AIVC conference : Retrofitting the Building Stock: Challenges and Opportunities for Indoor Environmental Quality ; Conference date: 09-10-2024 Through 10-10-2024",

}

Optimizing the design of retirement homes concerning the indoor environment, energy efficiency, and climate change resiliency. / Lindgaard Hald, Julie ; Zukowska-Tejsen, Daria; Kolarik, Jakub.
44^th AIVC conference : Retrofitting the Building Stock: Challenges and Opportunities for Indoor Environmental Quality. AIVC, 2025. p. 583-584.

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

TY - GEN

T1 - Optimizing the design of retirement homes concerning the indoor environment, energy efficiency, and climate change resiliency

AU - Lindgaard Hald, Julie

AU - Zukowska-Tejsen, Daria

AU - Kolarik, Jakub

PY - 2025

Y1 - 2025

N2 - This study explored the design optimization possibilities for Danish retirement homes while considering an increased risk of overheating due to elevated temperatures imposed by climate change. The focus was on combinations of design features and technical components ensuring thermal comfort and daylight. The study used a dynamic simulation tool to consider the current Danish design reference year and future climate predictions. The results indicate that using predicted climate data for 2050 could reduce overheating degree hours by 80% due to predicted direct solar radiation discrepancies. The study suggests using heatwave data to assess occupants' heat exposure. Design measures such as solar control coating on glazing reduced overheating by up to 53% while reducing daylight and increasing heating energy consumption. Ventilation hatches provided increased airflow and mitigated overheating without increasing energy consumption. A combination of static shading, solar control coating, and natural ventilation was sufficient for south-facing windows, but dynamic shading was necessary for east and west-facing windows.

AB - This study explored the design optimization possibilities for Danish retirement homes while considering an increased risk of overheating due to elevated temperatures imposed by climate change. The focus was on combinations of design features and technical components ensuring thermal comfort and daylight. The study used a dynamic simulation tool to consider the current Danish design reference year and future climate predictions. The results indicate that using predicted climate data for 2050 could reduce overheating degree hours by 80% due to predicted direct solar radiation discrepancies. The study suggests using heatwave data to assess occupants' heat exposure. Design measures such as solar control coating on glazing reduced overheating by up to 53% while reducing daylight and increasing heating energy consumption. Ventilation hatches provided increased airflow and mitigated overheating without increasing energy consumption. A combination of static shading, solar control coating, and natural ventilation was sufficient for south-facing windows, but dynamic shading was necessary for east and west-facing windows.

KW - Thermal comfort

KW - Daylight autonomy

KW - Elderly home

KW - Design optimization

KW - Climate change

M3 - Article in proceedings

SP - 583

EP - 584

BT - 44th AIVC conference

PB - AIVC

T2 - 44<sup>th</sup> AIVC conference

Y2 - 9 October 2024 through 10 October 2024

ER -

Optimizing the design of retirement homes concerning the indoor environment, energy efficiency, and climate change resiliency

Abstract

Conference

Keywords

UN SDGs

Fingerprint

Cite this