Master Degree / Yüksek Lisans Tezleri
Permanent URI for this collectionhttps://hdl.handle.net/11147/3008
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Master Thesis Professionals' Awareness on the Application and Use of Building Integrated Photovoltaic Systems(01. Izmir Institute of Technology, 2020) Tüten, Aysen; Kazanasmaz, Zehra Tuğçe; Kazanasmaz, Zehra Tuğçe; Kazanasmaz, Zehra Tuğçe; 02.02. Department of Architecture; 01. Izmir Institute of Technology; 02. Faculty of ArchitectureIn this thesis research, broad definition of solar energy, photovoltaic systems and building integrated photovoltaic systems, their application forms, usage in building subcomponents and examples on the usage of building integrated photovoltaic systems are involved. By the application of the survey method, the awareness of professionals on the application and use of photovoltaic systems integrated into the building were examined. This questionnaire consists of 3 sections: the general definition of solar energy (A), the general description of photovoltaics integrated into the building (B), and the application of integrated photovoltaics to the building (C). The survey questions consist of multiple choice, matching questions, true-false questions and interpretation questions. The responses given to the questionnaire were analyzed in terms of the number of participants and percentage based by comparing them tabularly and diagrammatically. The importance of the study is to enable practitioners, academics, architects and engineers to realize their knowledge about BIPV systems, to understand the importance of these systems in terms of energy efficient design approach and to encourage them to use these systems in their projects. And thus, spreading the use of BIPV in our country and all over the world, leading them to realize the energy efficient design approach. In the first chapter; after the general introduction of the subject of the thesis, problem description, research objective, thesis content and methodology are mentioned. In the second chapter; the definition and technical problems of BIPV systems, usage areas of BIPV, case buildings, performance evaluations, market opportunities and applicability are mentioned. In the third chapter; the methodology section is included that consist of general information about the survey, survey questions and content, preselected buildings for the survey, information about the participants. In the fourth chapter; the results and analysis of the questionnaire, the comparison of the responses of the participants and the evaluation of the results, the comparison of the participant information and the literature information, and the evaluation of the results are included. The fifth chapter is devoted to results and evaluations.Master Thesis Photovoltaic Charge Station on Garage Roofs With Passive Reflectors(Izmir Institute of Technology, 2000) Çantay, Aylin; Atagündüz, Gürbüz; Atagündüz, Gürbüz; 03.10. Department of Mechanical Engineering; 03. Faculty of Engineering; 01. Izmir Institute of TechnologyThis study involves a photovoltaic charge station which could be placed on garage roofs in order to charge the battery of an electrical car. The aim of this thesis is to design an efficient photo voltaic charge station and construction of omega type solar charge station. That's why various models were designed and calculated amount of energy. A photovoltaic charge station has 16 photovoltaic modules with dimensions 1293 mm*329 mm*34 mm. In this study five different type of solar charge stations were compared. These are, omega type solar charge station ( first type ), south facing type solar charge station with different angles ( second type ), south facing type solar charge station with fixed angles ( third type ), inverse of omega type solar charge station ( fourth type ), optimisation of south facing type solar charge station with different angles ( fifth type ). After calculating of collected solar energy, the fifth type solar charge station was chosen as the most efficient solar charge station. After these theoretical calculations, omega type solar charge station has been installed on the Electrical Engineering Department's roof. Voltages and current intensitiesof omega type solar charge station were measured from 28 June 2000 to 15 October 2000 in order to determine the solar power obtained and to compare it with the calculated values and measured data by Solar Energy Institute of Aegean University and meteorological station in Glizelyah. The results obtained are satisfactory.