Abstracts – Browse Results
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Al-Khatri, H, Etri, T and Gadi, M B (2022) User response to indoor thermal environment in female high school buildings in Oman. Building Research & Information, 50(01–02), 192–212.
Cooper, E, Wang, Y, Stamp, S, Nijsen, T, de Graaf, P, Hofman, J, Inki, T, Driessen, R, Liebmann, J, Geven, I T M, Vervoort, K, La Manna, V P, Valster, S, de Wolf, P, Peltonen, S, Burman, E, Salminen, A, van Galen, R and Mumovic, D (2022) Why do people use portable air purifiers? Evidence from occupant surveys and air quality monitoring in homes in three European cities. Building Research & Information, 50(01–02), 213–29.
da Silva, M B C, Moschen, S d A, Cecatto, B and Larentis, F (2022) Perceived attributes and dimensions of accessibility in adapted bathrooms. Building Research & Information, 50(01–02), 60–73.
Engelen, L, Rahmann, M and de Jong, E (2022) Design for healthy ageing – the relationship between design, well-being, and quality of life: a review. Building Research & Information, 50(01–02), 19–35.
Forooraghi, M, Cobaleda-Cordero, A and Babapour Chafi, M (2022) A healthy office and healthy employees: a longitudinal case study with a salutogenic perspective in the context of the physical office environment. Building Research & Information, 50(01–02), 134–51.
Galiano-Garrigós, A, Marcos, C L, Kouider, T and Juan Gutiérrez, P J (2022) Reassessing thermal comfort in modern architecture: E.1027 as a case study. Building Research & Information, 50(01–02), 230–54.
Kevdzija, M and Marquardt, G (2022) Impact of distance on stroke inpatients’ mobility in rehabilitation clinics: a shadowing study. Building Research & Information, 50(01–02), 74–88.
Porto Valente, C, Morris, A and Wilkinson, S J (2022) Energy poverty, housing and health: the lived experience of older low-income Australians. Building Research & Information, 50(01–02), 6–18.
Richardson, M and Butler, C W (2022) Nature connectedness and biophilic design. Building Research & Information, 50(01–02), 36–42.
Saroglou, T, Itzhak-Ben-Shalom, H and Meir, I A (2022) Pedestrian thermal perception: studies around two high-rise buildings in the Mediterranean climate. Building Research & Information, 50(01–02), 171–91.
Shepley, M M, Peditto, K, Sachs, N A, Pham, Y, Barankevich, R, Crouppen, G and Dresser, K (2022) Staff and resident perceptions of mental and behavioural health environments. Building Research & Information, 50(01–02), 89–104.
Soto Muñoz, J, Trebilcock Kelly, M, Flores-Alés, V and Ramírez-Vielma, R (2022) Understanding the perceived productivity of office occupants in relation to workspace thermal environment. Building Research & Information, 50(01–02), 152–70.
Willems, S, Saelens, D and Heylighen, A (2022) Patient well-being, adaptation of and to indoor conditions, and hospital room design: two mixed methods case studies. Building Research & Information, 50(01–02), 105–33.
- Type: Journal Article
- Keywords: Adaptation; built environment; healing environment; indoor environmental quality; well-being;
- ISBN/ISSN: 0961-3218
- URL: https://doi.org/10.1080/09613218.2021.2004386
- Abstract:
Research indicates that adaptation influences how people experience indoor conditions (ICs), and that the built environment influences both adaptation, via perceived control, and well-being. Their interlinkage is, however, not well understood. Therefore, we investigated how the design of hospital rooms can contribute to patients’ well-being by supporting their adaptation of and to ICs via perceived control. Two mixed methods case studies were conducted at hospital wards in Belgium, each concurrently collecting qualitative and quantitative data. These included interviews with 16 (case 1) and 19 (case 2) patients, self-documentation by 8 patients (case 1), sensor measurements of indoor environmental quality indicators (e.g. sound, light, and temperature levels) (cases 1 and 2) and questionnaires among 84 (case 1) and 238 (case 2) patients. Focusing on the built environment’s role in adaptation allows characterizing known adaptation strategies in more detail. When perceiving control over adaptable building characteristics, patients can adapt ICs or adapt to ICs by choice. When not perceiving such control, they may still adapt sensations or their position. Without any perceived control, adapting to ICs is imposed. The built environment can support patients’ adaptation by supporting their autonomy and competences. In this way it can foster both patients’ eudaimonic as well as their hedonic well-being.
Xie, Q and Yuan, X (2022) Functioning and environment: Exploring outdoor activity-friendly environments for older adults with disabilities in a Chinese long-term care facility. Building Research & Information, 50(01–02), 43–59.