In recent years, there has been a noteworthy shift towards utilizing renewable energy sources like solar energy to replace traditional fossil fuels, driven by the pursuit of sustainable economic growth while maintaining environmental responsibility. We in this work focus on assessing the static bending characteristics of multilayered organic solar panels subjected to wind pressure. The organic solar cells are constructed by stacking a sequence of five functional layers. The mechanical behavior is evaluated using an effective numerical model established from four-variable refined plate theory within the NURBS-based isogeometric analysis framework. Through parametric investigations, we analyze the significant influence of various input parameters including wind velocity, wind attack angle, length-to-thickness ratio, and boundary conditions on structural deflections. The insights gained from this investigation could provide crucial guidance for upcoming analyses, designs, as well as fabrication processes related to advanced solar panel structures.
A Static Bending Performance of Organic Solar Panels Under Wind Pressure
Mechan. Machine Science
Conference on Microactuators and Micromechanisms ; 2024 ; Ho Chi Minh City, Vietnam November 09, 2024 - November 11, 2024
08.03.2025
9 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
Static Performance of Hot Bonded Inserts in Honeycomb Panels
British Library Conference Proceedings | 2008
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