Sandwich Glazed Photovoltaic Thermal Collector. Performance Study (eBook)
179 Seiten
GRIN Verlag
978-3-346-79440-6 (ISBN)
Therefore, producing electrical power and heat from a single PV/T system is an intellectual concept that can meet both energy requirements. A novel Sandwich Glazed Photovoltaic (SGPV) module has been designed and fabricated to be used in the photovoltaic thermal system instead of the standard photovoltaic (SPV) module to address the problem of overheating. However, the bottom layer material and geometry of the PV module were changed in this work to improve the performance of the system.
Initially, the temperature in the various layers and the photovoltaic efficiency of SPV and SGPV modules were obtained from the experiments. Furthermore, 3D models of SPV and SGPV modules were developed using Solid Works software, and temperature distribution and heat flow within the modules were investigated using ANSYS software. Finally, the mechanism behind the change in photovoltaic efficiency with respect to temperature is determined from the experiment and thermal analysis results.
The maximum photovoltaic efficiency of the SPV and SGPV modules was 10.8% and 11.1%, respectively, and it was discovered that the SGPV module outperforms the SPV module. After that, the Sandwich Glazed Photovoltaic Thermal (SGPV/T) system was developed using the SGPV module. Subsequently, the photovoltaic, thermal, and overall efficiency of the proposed system were assessed by experimentation and compared with the standard PV module. Furthermore, the programmed electrical and thermal models are simulated using MATLAB for comparative analysis.
Subsequently, the experiment results were compared with the MATLAB Simulation results and found that the performance and outlet water temperature of the SGPV/T system are significantly improved with an average photovoltaic, thermal and overall efficiency of 9.67%, 41.34% and 66.78%, respectively. The findings, specifications and novelty of the proposed system were compared to previous studies.
Erscheint lt. Verlag | 16.1.2023 |
---|---|
Verlagsort | München |
Sprache | englisch |
Themenwelt | Naturwissenschaften ► Physik / Astronomie |
Technik | |
Schlagworte | Electrical Efficiency • Solar energy • Solar Photovoltaic • Temperature • Thermal efficiency |
ISBN-10 | 3-346-79440-7 / 3346794407 |
ISBN-13 | 978-3-346-79440-6 / 9783346794406 |
Haben Sie eine Frage zum Produkt? |
Größe: 4,3 MB
Digital Rights Management: ohne DRM
Dieses eBook enthält kein DRM oder Kopierschutz. Eine Weitergabe an Dritte ist jedoch rechtlich nicht zulässig, weil Sie beim Kauf nur die Rechte an der persönlichen Nutzung erwerben.
Dateiformat: PDF (Portable Document Format)
Mit einem festen Seitenlayout eignet sich die PDF besonders für Fachbücher mit Spalten, Tabellen und Abbildungen. Eine PDF kann auf fast allen Geräten angezeigt werden, ist aber für kleine Displays (Smartphone, eReader) nur eingeschränkt geeignet.
Systemvoraussetzungen:
PC/Mac: Mit einem PC oder Mac können Sie dieses eBook lesen. Sie benötigen dafür einen PDF-Viewer - z.B. den Adobe Reader oder Adobe Digital Editions.
eReader: Dieses eBook kann mit (fast) allen eBook-Readern gelesen werden. Mit dem amazon-Kindle ist es aber nicht kompatibel.
Smartphone/Tablet: Egal ob Apple oder Android, dieses eBook können Sie lesen. Sie benötigen dafür einen PDF-Viewer - z.B. die kostenlose Adobe Digital Editions-App.
Buying eBooks from abroad
For tax law reasons we can sell eBooks just within Germany and Switzerland. Regrettably we cannot fulfill eBook-orders from other countries.
aus dem Bereich