Phd Degree / Doktora
Permanent URI for this collectionhttps://hdl.handle.net/11147/2869
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Doctoral Thesis 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, TahsinSustaining 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.Doctoral Thesis Long-Term Protection Efficiency of Biodegradable Polymer Treatments on Limestone(Izmir Institute of Technology, 2019) Kaplan, Zişan; Böke, Hasan; Sofuoğlu, Aysun; İpekoğlu, BaşakSynthetic polymers can be replaced by biodegradable ones as adhesive, water repellents and consolidants in stone conservation to preserve historic buildings from further deterioration. In this study, the long-term stabilities of two biodegradable polymers, polyhydroxybutyrate (PHB) and poly-l-lactide (PLA) and an acrylic polymer (Paraloid B72), which are commonly used in conservation works of artefacts, were evaluated on limestone through an UV lamp-weathering chamber. Chemical and morphological changes induced by accelerated weathering test were followed by Fourier Transform Infrared spectroscopy (FT-IR) and Scanning Electron Microscopy (SEM) analysis. The protection efficiencies of the polymers were determined by following the changes in the color, capillary water absorption and static contact angle on the limestone surfaces in accordance with CEN standards developed by the European Committee of Standardization (CEN) for conservation of cultural property. PHB, PLA and Paraloid B72 coatings significantly increased hydrophobicity, decreased capillary water absorption and caused negligible change in the color of the limestone. All polymers showed chemical, physical and optical changes under accelerated weathering conditions. Paraloid B72 decomposed by the reduction of molecular weight, decomposition of ester group and formation of gamma lactones and hydro peroxides. PHB and PLA decomposed with formation of CO2 and hydro peroxide, hydrolysis of ester groups and reduction of the molecular weight. Chemical changes cause to etching, holes, voids, cracks and slight color differentiations on the coatings by chain scission, breaking of polymer bonds and formation of volatile gaseous products. Protection efficiencies of the PLA and PHB polymers almost same as that of the widely used acrylic polymer Paraloid B72. However, PLA and PHB seem to be promising polymers as protective agents due to their reversibility and biodegradability, low chromatic changes, good hydrophobic behavior and good stability to weathering in reducing the effects of outdoor exposure on limestone surfaces.