Determination of the Optimum Values of the Natural Frequency of the Nanocomposite Multilayer Organic Solar Cell by using Basic Differential Evolution Optimization Algorithms

VNU Journal of Science: Mathematics - Physics Pub Date : 2023-03-27 DOI:10.25073/2588-1124/vnumap.4773

Vu Minh Anh

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Abstract

By the analytical approach, the equation of natural frequency of nanocomposite multilayer organic solar cell (NMOSC) is analyzed in this work. The NMOSC is composed of 6 layers: Al, LiF, P3HT: PCBM, PEDOT: PSS, ITO and Glass. By using the classical plate theory, the Hooke’s Law, the geometrical compatibility equation and the nonlinear equilibrium equations are proposed. These equations combined with the Galerkin method in order to investigate the effect of elastic foundations, geometrical parameters and initial imperfection on the natural frequency. Besides, in order to determine the maximum natural frequency of NMOSC, basic differential evolution optimization algorithm (DE) was used with five variables: elastic foundations include Winkeler foudation and Pasternak foudation, temperature, width and length. In the numerical results, the influence of length to width ratio, imperfection, elastic foundations and temperature increment were evaluated in detail. The optimal results from DE algorithm are shown and compared.

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基于基本差分进化优化算法确定纳米复合多层有机太阳能电池固有频率的最佳值

本文采用解析方法，对纳米复合多层有机太阳电池(NMOSC)的固有频率方程进行了分析。NMOSC由6层组成:Al, liff, P3HT: PCBM, PEDOT: PSS, ITO和Glass。利用经典板理论，提出了胡克定律、几何相容方程和非线性平衡方程。将这些方程与伽辽金方法相结合，研究了弹性基础、几何参数和初始缺陷对固有频率的影响。此外，为了确定NMOSC的最大固有频率，采用了基本差分进化优化算法(DE)，考虑了五个变量:弹性基础包括Winkeler基础和Pasternak基础、温度、宽度和长度。在数值计算结果中，详细评价了长宽比、缺陷、弹性基础和温升等因素的影响。给出了DE算法的最优结果并进行了比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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VNU Journal of Science: Mathematics - Physics

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