Adaptive facade, the active connection between indoor and outdoor
(2019) AEBM01 20181Division of Energy and Building Design
Department of Architecture and Built Environment
- Abstract
- This study explores the connection between the indoor and outdoor environment and how through the use of shading devices they affect each other. The chosen location for the study is a well-known street in the urban context of Copenhagen. Through different façade and shading evaluations, this thesis aims to investigate the possibility of achieving desired visual and thermal comfort levels for the indoors, while the designer also actively influences those comfort metrics for the outdoors.
Parametric design strategies were used with the aid of the software Grasshopper for Rhino, and climate based dynamic simulations were carried out with Radiance and Energy Plus for daylight and thermal analysis respectively. According to indoor daylight... (More) - This study explores the connection between the indoor and outdoor environment and how through the use of shading devices they affect each other. The chosen location for the study is a well-known street in the urban context of Copenhagen. Through different façade and shading evaluations, this thesis aims to investigate the possibility of achieving desired visual and thermal comfort levels for the indoors, while the designer also actively influences those comfort metrics for the outdoors.
Parametric design strategies were used with the aid of the software Grasshopper for Rhino, and climate based dynamic simulations were carried out with Radiance and Energy Plus for daylight and thermal analysis respectively. According to indoor daylight levels and operative temperature the shading system was optimized through the use of an evolutionary solver.
Four different solutions were simulated and analysed. Firstly, by changing the façade’s window to wall ratio (WWR), secondly by using a static venetian blind, thirdly by having the same venetian blind operable and finally by using a sun-tracking fenestration system. For both dynamic solutions the option of closing the shading outside of occupancy times was explored, to increase daylight on the street canyon.
The results show a clear relationship between the indoor and outdoor environment regarding thermal and visual comfort. The use of a dynamic façade system shows a possibility to actively influence both environments. (Less) - Popular Abstract
- This study explores the connection between the indoor and outdoor environment and how through the use of shading devices they affect each other. The chosen location for the study is a well-known street in the urban context of Copenhagen. Through different façade and shading evaluations, this thesis aims to investigate the possibility of achieving desired visual and thermal comfort levels for the indoors, while the designer also actively influences those comfort metrics for the outdoors.
Parametric design strategies were used with the aid of the software Grasshopper for Rhino, and climate based dynamic simulations were carried out with Radiance and Energy Plus for daylight and thermal analysis respectively. According to indoor daylight... (More) - This study explores the connection between the indoor and outdoor environment and how through the use of shading devices they affect each other. The chosen location for the study is a well-known street in the urban context of Copenhagen. Through different façade and shading evaluations, this thesis aims to investigate the possibility of achieving desired visual and thermal comfort levels for the indoors, while the designer also actively influences those comfort metrics for the outdoors.
Parametric design strategies were used with the aid of the software Grasshopper for Rhino, and climate based dynamic simulations were carried out with Radiance and Energy Plus for daylight and thermal analysis respectively. According to indoor daylight levels and operative temperature the shading system was optimized through the use of an evolutionary solver.
Four different solutions were simulated and analysed. Firstly, by changing the façade’s window to wall ratio (WWR), secondly by using a static venetian blind, thirdly by having the same venetian blind operable and finally by using a sun-tracking fenestration system. For both dynamic solutions the option of closing the shading outside of occupancy times was explored, to increase daylight on the street canyon.
The results show a clear relationship between the indoor and outdoor environment regarding thermal and visual comfort. The use of a dynamic façade system shows a possibility to actively influence both environments. (Less)
Please use this url to cite or link to this publication:
http://lup.lub.lu.se/student-papers/record/8968027
- author
- Wang, Chenhong LU and Perez Morata, Angel Asis LU
- supervisor
-
- Maria Wall LU
- organization
- alternative title
- Visual and thermal evaluation of an adaptive facade in the urban contect of Copenhagen
- course
- AEBM01 20181
- year
- 2019
- type
- H2 - Master's Degree (Two Years)
- subject
- keywords
- Adaptive facade, thermal and visual comfort, indoor and outdoor environment
- language
- English
- id
- 8968027
- date added to LUP
- 2019-02-06 10:53:27
- date last changed
- 2019-02-06 10:53:27
@misc{8968027, abstract = {{This study explores the connection between the indoor and outdoor environment and how through the use of shading devices they affect each other. The chosen location for the study is a well-known street in the urban context of Copenhagen. Through different façade and shading evaluations, this thesis aims to investigate the possibility of achieving desired visual and thermal comfort levels for the indoors, while the designer also actively influences those comfort metrics for the outdoors. Parametric design strategies were used with the aid of the software Grasshopper for Rhino, and climate based dynamic simulations were carried out with Radiance and Energy Plus for daylight and thermal analysis respectively. According to indoor daylight levels and operative temperature the shading system was optimized through the use of an evolutionary solver. Four different solutions were simulated and analysed. Firstly, by changing the façade’s window to wall ratio (WWR), secondly by using a static venetian blind, thirdly by having the same venetian blind operable and finally by using a sun-tracking fenestration system. For both dynamic solutions the option of closing the shading outside of occupancy times was explored, to increase daylight on the street canyon. The results show a clear relationship between the indoor and outdoor environment regarding thermal and visual comfort. The use of a dynamic façade system shows a possibility to actively influence both environments.}}, author = {{Wang, Chenhong and Perez Morata, Angel Asis}}, language = {{eng}}, note = {{Student Paper}}, title = {{Adaptive facade, the active connection between indoor and outdoor}}, year = {{2019}}, }