Master Degree / Yüksek Lisans Tezleri
Permanent URI for this collectionhttps://hdl.handle.net/11147/3008
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Master Thesis Numerical Study on Gasoline Direct Injection Sprays(Izmir Institute of Technology, 2015) Güleç, Yağmur; Mobedi, Moghtada; Diez, Alvaro; Mobedi, Moghtada; 03.10. Department of Mechanical Engineering; 03. Faculty of Engineering; 01. Izmir Institute of TechnologyGasoline direct injection technology is a combination of the advantages of diesel engine and spark ignition engines. Hence, the gasoline fuel is injected directly to combustion chamber. It provides finer atomization to allow evaporation more rapidly than traditional gasoline engines and less emissions in terms of NOx and particulate than diesel engines. The understanding of spray behaviour is a significant point to control optimal air/fuel mixture and misfiring. This thesis presents a numerical investigation of a GDI injector under flash and non-flash boiling conditions. The study is performed with sprays injected into a constant volume chamber. The purpose of the thesis is to develop a CFD model to compare it with experimental spray penetration and spray angle results. Firstly, the model is validated in terms of spray penetration. Secondly, the model is applied to nine different conditions including flash and non-flash boiling conditions. The spray penetration and angle comparisons between numerical and experimental results were done.Master Thesis Investigation of Oil Flow and Heat Transfer in Transformer Radiator(Izmir Institute of Technology, 2015) Kaymaz, Özben; Başaran, Tahsin; Başaran, Tahsin; Erek, Aytunç; 02.02. Department of Architecture; 02. Faculty of Architecture; 01. Izmir Institute of TechnologyTransformer losses are produced by the current passing through resistance on the winding conductors. These losses are converted to heat energy as all electrical machines. Transformer life depends on the aging of cellulose-based insulation material in winding. Winding temperature must be kept below a certain temperature limit, because the excess heat in the windings directly accelerates the aging of insulation material. Oil-immersed transformers are cooled by using transformer oil. In this study, flow and heat transfer of transformer radiator filled with mineral oil, silicone oil and ester oil were investigated. Oil in radiator was modelled in 3D, thereby oil flow volume was created, heat transfer calculations were made with using different type transformer oils and investigation of flow behavior is studied. Temperature dependent density, thermal conductivity and viscosity values are obtained from oil suppliers. Transformer oil database was composed by using curve fitting methods in MathCAD Software to use in CFD (Computational Fluid Dynamics) analysis in Fluent software. Finally, the pressure differences were obtained for each oil type. According to the velocity versus pressure difference graph that was obtained from the results of this study, inertial resistance and viscous resistance could be described which are required in future studies to use porous medium approach. Number of elements and computation domain will be decreased by using porous medium approach, then complete transformer model could be analyzed. Additionally, thermal characteristics of transformer oils were obtained and compared in this study. Accordingly, natural ester oil had the best heat transfer and pressure drop.