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Steel and Composite Structures
  Volume 50, Number 1, January 10 2024 , pages 45-61
DOI: https://doi.org/10.12989/scs.2024.50.1.045
 


Stability of an improved optimization iterative algorithm to study vibrations of the multi-scale solar cells subjected to wind excitation using Series-Fourier algorithm
Jing Pan, Yi Hu and Guanghua Zhang

 
Abstract
    This research explores the domain of organic solar cells, a photovoltaic technology employing organic electronics, which encompasses small organic molecules and conductive polymers for efficient light absorption and charge transport, leading to electricity generation from sunlight. A computer simulation is employed to scrutinize resonance and dynamic stability in OSCs, with a focus on size effects introduced by nonlocal strain gradient theory, incorporating additional terms in the governing equations related to displacement and time. Initially, the Navier method serves as an analytical solver to delve into the dynamics of design points. The accuracy of this initial step is verified through a meticulous comparison with high-quality literature. The findings underscore the substantial impact of viscoelastic foundations, size-dependent parameters, and geometric factors on the stability and dynamic deflection of OSCs, with a noteworthy emphasis on the amplified influence of size-dependent parameters in higher values of the different layers' thicknesses.
 
Key Words
    Hamilton's principle; Naiver type method; OSC; stability; Vibrational analysis
 
Address
Jing Pan and Yi Hu:Department of Materials and Chemical Engineering, Taiyuan University, Taiyuan 030000, Shanxi, China

Guanghua Zhang:Department of Intelligence and Automation, Taiyuan University, Taiyuan 030000, Shanxi, China
 

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