TY - JOUR
T1 - Evaluation of occupant's adaptive thermal comfort behaviour in naturally ventilated courtyard houses
AU - Pilechiha, Peiman
AU - Norouziasas, Alireza
AU - Ghorbani Naeini, Hoorieh
AU - Jolma, Kasmir
PY - 2022
Y1 - 2022
N2 - Purpose In vernacular buildings, many climatic and passive solutions have been used to create indoor thermal comfort. Seasonal occupant movement is an example of a traditional response to increasing thermal comfort. This article investigates the influence of these user behaviours on thermal comfort in courtyard houses. Design/methodology/approach Parametric models of three different scenarios of courtyard houses are simulated. The courtyard houses are located in Shiraz, Iran, and share the same orientation and construction materials. To enhance the accuracy of the study, the indoor adaptive thermal comfort (ATC) analysis is performed with three different window-to-wall ratios (WWR) of 25, 50 and 75%. The ACT analysis is performed on an hourly basis for summer and winter scenarios. Findings The results demonstrate that the indoor ATC is 8.3% higher in winter than in the summer in the seasonal zones. During the summer, the amount of ATC is relatively sustained in all zones. Unlike common beliefs, seasonal movement can enhance the ATC, especially during winter, specifically in the northern part of the courtyard. In northern zones, the seasonal movement of occupants improves the indoor ATC from 10.1 to 23.7%, and in southern zones, the improvement is from 2.2 to 4.8%. Originality/value This research presents a new numerical investigation into occupants' seasonal movements in courtyard houses during summer and winter. It provides a precise pattern to show how much this seasonal movement can affect the habitant's ATC.
AB - Purpose In vernacular buildings, many climatic and passive solutions have been used to create indoor thermal comfort. Seasonal occupant movement is an example of a traditional response to increasing thermal comfort. This article investigates the influence of these user behaviours on thermal comfort in courtyard houses. Design/methodology/approach Parametric models of three different scenarios of courtyard houses are simulated. The courtyard houses are located in Shiraz, Iran, and share the same orientation and construction materials. To enhance the accuracy of the study, the indoor adaptive thermal comfort (ATC) analysis is performed with three different window-to-wall ratios (WWR) of 25, 50 and 75%. The ACT analysis is performed on an hourly basis for summer and winter scenarios. Findings The results demonstrate that the indoor ATC is 8.3% higher in winter than in the summer in the seasonal zones. During the summer, the amount of ATC is relatively sustained in all zones. Unlike common beliefs, seasonal movement can enhance the ATC, especially during winter, specifically in the northern part of the courtyard. In northern zones, the seasonal movement of occupants improves the indoor ATC from 10.1 to 23.7%, and in southern zones, the improvement is from 2.2 to 4.8%. Originality/value This research presents a new numerical investigation into occupants' seasonal movements in courtyard houses during summer and winter. It provides a precise pattern to show how much this seasonal movement can affect the habitant's ATC.
KW - Adaptive thermal comfort
KW - Occupant seasonal movement behaviours
KW - Courtyard
KW - Naturally ventilated building
KW - Parametric simulation
KW - ENERGY-CONSUMPTION
KW - BUILDINGS
KW - PERFORMANCE
KW - IMPACT
KW - OPTIMIZATION
KW - OFFICES
KW - CLIMATE
KW - SUMMER
KW - DESIGN
U2 - 10.1108/SASBE-02-2021-0020
DO - 10.1108/SASBE-02-2021-0020
M3 - Article
SN - 2046-6099
VL - 11
SP - 793
EP - 811
JO - SMART AND SUSTAINABLE BUILT ENVIRONMENT
JF - SMART AND SUSTAINABLE BUILT ENVIRONMENT
IS - 4
ER -