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Evaluation of Thermal Comfort Conditions During Training in Physical Fitness Spaces
(01. Izmir Institute of Technology, 2024) Avcı, Ali Berkay; Başaran, Tahsin
Presently, fitness centers have become extensively occupied spaces. These higher-activity-level spaces require different thermal comfort parameters than other indoor environments. Therefore, it is crucial to provide the comfort that users need during their physical exercise. Human body during exercise requires different thermal comfort conditions and higher fresh air supply rates than sedentary activities. The standards for fitness centers do not provide specialized thermal and spatial instructions for the fitness spaces. This thesis focuses on investigating the thermal and spatial conditions of exercise spaces. To determine ideal exercise space conditions, a thermal and flow analysis involving experiments and 3D simulations in a computer environment were employed. The study specifically examined spatial factors such as ceiling height, lateral and frontal distances between machines, and vent locations, along with thermal factors like inlet temperature and air velocity. A thirty-minute constant work rate exercise test at moderate intensity was conducted in a controlled climatic chamber with six participants. The experiment's conditions were replicated and verified in CFD software using the collected data. Then, computational models for various environmental and spatial scenarios for a five-person cycling class were generated. Employing the L9 orthogonal arrays method, nine spatial scenarios with three thermal operations were simulated. Optimal factor levels were determined based on thermal comfort conditions by predicted mean vote (PMV) around the thermal plumes. The findings indicated that a ceiling height of 5m, lateral and frontal distances of 1m and 0.5m between machines, and ventilation strategy with ceiling located inlets at a condition of 18°C and 0.2m•s-1 performed optimal results.
Thermal Retrofitting on Traditional Building With Exterior Hall (sofa): Urban and Rural Houses of Muğla
(Izmir Institute of Technology, 2019) Timur, Barış Ali; İpekoğlu, Başak; Başaran, Tahsin
Sustaining functional continuity of historical buildings is a commonly acknowledged conservation strategy and thermal retrofitting interventions applied on these buildings has complemental potentials to this strategy as these interventions can be designed to increase the thermal satisfaction of occupants. The aim of this thesis is to examine the thermal behavior of a common historical building type in Anatolia, the traditional houses with exterior hall, and to determine enhancement potentials of possible thermal interventions which will not cause loss of heritage values. Method of the study consists of on-site thermal measurements and transient thermal analysis of case studies utilizing the software DesignBuilder. Case studies were selected from both urban and rural sub-settlements of Muğla City in order to detect possible effects of prevailing microclimates. With the results obtained, it was demonstrated the retrofitting interventions of thermal insulation works in roofs and floors between storeys, airtightness measures, addition of secondary glazing to window frames and the addition of closed circulation corridors provide significant improvements in thermal performance of the cases. According to simulation analyses, it was specified that these interventions would save 38.0% of the total building energy use in the urban and 49.4% in the rural subsettlements. These improvement percentages can even be increased to more than 80% when the integration of a new HVAC system such as ground-source heat pump is implemented. Consequently, it was determined the traditional houses with exterior hall have significant potentials for thermal enhancements which renders the application of thermal interventions as a capable conservation strategy.

Phd Degree / Doktora

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