Qualifying and Quantifying Thermal Comfort in Highly Glazed Spaces
(2017) Glass Performance Days 2017 p.8-11- Abstract
- This paper aims to answer a simple and elemental question: how do we qualify and quantify thermal comfort in highly glazed spaces with diverse occupants’ use and expectation? And, how can designers achieve enhanced occupant experience with passive measures, minimizing the use of HVAC systems in such spaces? In this study variables, such as air and radiant temperatures, air velocity, relative humidity and direct solar component were identified as the “working tools” in order to create different indoor environments that fulfil expectations and serve the building’s function. Parameters such as adaptability, occupants’ expectation and duration of stay within each space are also affecting the acceptance levels of thermal comfort. The study... (More)
- This paper aims to answer a simple and elemental question: how do we qualify and quantify thermal comfort in highly glazed spaces with diverse occupants’ use and expectation? And, how can designers achieve enhanced occupant experience with passive measures, minimizing the use of HVAC systems in such spaces? In this study variables, such as air and radiant temperatures, air velocity, relative humidity and direct solar component were identified as the “working tools” in order to create different indoor environments that fulfil expectations and serve the building’s function. Parameters such as adaptability, occupants’ expectation and duration of stay within each space are also affecting the acceptance levels of thermal comfort. The study includes the existing standards and comfort models and synthesizes this knowledge to develop a “hands on” method that will help designers meet the comfort expectations of diverse spaces with respect to the vision and the functionality of the building. As a result, an excel based tool was developed that can help designers in understanding thermal comfort and the important affecting variables, leading to appropriate measures for avoiding thermal discomfort and fulfilling the set performance requirements. The tool was used on a case study, where thermal comfort limits were examined for different types of spaces. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/e481c023-59f7-482f-8277-cb8e7acc76ee
- author
- Deliahmedova, Medina ; Poirazis, Harris LU and Davidsson, Henrik LU
- organization
- publishing date
- 2017
- type
- Chapter in Book/Report/Conference proceeding
- publication status
- published
- subject
- keywords
- Thermal comfort, Glass, Glazed spaces
- host publication
- Conference proceedings: GPD June 28 -30
- pages
- 8 - 11
- conference name
- Glass Performance Days 2017
- conference location
- Tampere, Finland
- conference dates
- 2017-06-28 - 2017-06-30
- language
- English
- LU publication?
- yes
- id
- e481c023-59f7-482f-8277-cb8e7acc76ee
- date added to LUP
- 2019-04-29 13:05:51
- date last changed
- 2021-03-22 20:57:50
@inproceedings{e481c023-59f7-482f-8277-cb8e7acc76ee, abstract = {{This paper aims to answer a simple and elemental question: how do we qualify and quantify thermal comfort in highly glazed spaces with diverse occupants’ use and expectation? And, how can designers achieve enhanced occupant experience with passive measures, minimizing the use of HVAC systems in such spaces? In this study variables, such as air and radiant temperatures, air velocity, relative humidity and direct solar component were identified as the “working tools” in order to create different indoor environments that fulfil expectations and serve the building’s function. Parameters such as adaptability, occupants’ expectation and duration of stay within each space are also affecting the acceptance levels of thermal comfort. The study includes the existing standards and comfort models and synthesizes this knowledge to develop a “hands on” method that will help designers meet the comfort expectations of diverse spaces with respect to the vision and the functionality of the building. As a result, an excel based tool was developed that can help designers in understanding thermal comfort and the important affecting variables, leading to appropriate measures for avoiding thermal discomfort and fulfilling the set performance requirements. The tool was used on a case study, where thermal comfort limits were examined for different types of spaces.}}, author = {{Deliahmedova, Medina and Poirazis, Harris and Davidsson, Henrik}}, booktitle = {{Conference proceedings: GPD June 28 -30}}, keywords = {{Thermal comfort; Glass; Glazed spaces}}, language = {{eng}}, pages = {{8--11}}, title = {{Qualifying and Quantifying Thermal Comfort in Highly Glazed Spaces}}, year = {{2017}}, }