Master Degree / Yüksek Lisans Tezleri
Permanent URI for this collectionhttps://hdl.handle.net/11147/3008
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Master Thesis Numerical Investigation of Thermal Management in Photovoltaic Cells With Phase Changing Materials (pcm) and High Conductivity Inserts(01. Izmir Institute of Technology, 2021) Çetkin, Erdal; Çetkin, Erdal; 03.10. Department of Mechanical Engineering; 03. Faculty of Engineering; 01. Izmir Institute of TechnologyPhotovoltaic cells' electrical conversion efficiency from incident solar radiation heavily depends on the cell temperature. A novel thermal management strategy aimed at keeping the cell temperature in the same order to maximize PV cell electrical conversion efficiency is proposed in this study. The study compares four solar module configurations: a conventional photovoltaic module (PVT module), a hybrid of conventional with PCM (PVT/PCM-I), an internally finned configuration with PCM (PVT/PCM-II), and a configuration where the bottom surface of PVT/PCM-II was cooled via convection (PVT/PCM-III). The developed 3D numerical model was solved via ANSYS software involving the solar ray tracing radiation model for incident solar radiations and a transient melting-solidification thermo-fluid model for modeling of the PCM. Numerical results were validated by comparing them against experimental results published in the literature. Results show that the conversion efficiency of PV cells reaches 16.84%, 18.65%, 18.83%, and 18.98% after 120 minutes for PVT module, PVT/PCM-I, PVT/PCM-II, and PVT/PCM-III, respectively while the specific electrical power produced reaches 75.30W/m2, 83.39W/m2, 84.19W/m2, and 89.42W/m2 for solar radiation of 540W/m2 and 26°C ambient temperature. A 5 mm increase in the fin height for PVT/PCM-II results in a 0.22% increase in efficiency while a 0.5m/s increase in the inlet velocity of the cooling air for PVT/PCM-III results in about 0.06% efficiency increase. Furthermore, performance evaluation of PVT/PCM-III was carried out with sample weather data of the Indian Institute of Technology-Delhi and the Algiers site. The hourly average of overall conversion efficiency for the respective sites reaches 16.70% and 16.84% for a conventional PV module and 19.04% and 19.19% for PVT/PCM-III where the conversion efficiency increases by 14% and 13.7% respectively.Master Thesis Computational Fluid Dynamics (cfd) Analysis of Latent Heat Storage in Heat Exchangers by Using Phase Change Materials (pcm)(Izmir Institute of Technology, 2020) Çetkin, Erdal; Çetkin, Erdal; Rocha, Luiz Aberto Oliveira; 03.10. Department of Mechanical Engineering; 03. Faculty of Engineering; 01. Izmir Institute of TechnologyThe development of TES applications and materials takes the attention of many researchers, but the current literature rarely involves studies concerning medium temperature applications. This thesis compares available phase change materials (PCMs) for the medium temperature range. For this aim, Erythritol was defined as PCM in the numerical analyses. The effect of heat transfer fluid (HTF) tube position and shell shape on the melting time and sensible energy requirement for melting a phase change material (PCM) in a latent heat thermal energy storage (LHTES) application were investigated. Tube location and shell shape are essential due to the shape of the melted region, i.e., similar to the boundary layer. Results show that the S-curve of melting becomes steeper if the tubes are distributed such that the intersection of melted regions is delayed. Therefore, melted regions should be packed into a finite space which uncovers the shape of the shell that minimizes melting time and required sensible energy. Results show that, rectangular-shaped shell design where the tubes located near the bottom end decreases melting time and sensible energy from 67 minutes to 32 minutes and from 161.8 kJ/kg to 136.3 kJ/kg for %72.3 liquid fraction relative to the circular-shaped shell, respectively. In the four-tube cases, then the required melting time and sensible energy decrease 80% and 3.8% through the rectangular-shaped shell design for the PCM to melt completely, respectively. Overall, the results show that sensible energy storage and especially melting time can be decreased greatly by just varying the design.