Nonlinear stability and optimization of thin nanocomposite multilayer organic solar cell using Bees Algorithm

This paper carries out the nonlinear stability of nanocomposite multilayer organic solar cell (NMOSC) subjected to axial compressive loads. The model of organic solar cell is assumed to consist five layers: Al, P3HT:PCBM, PEDOT:PSS, IOT and Glass. Based on the classical plate theory, the basic equat...

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Published inThin-walled structures Vol. 149; p. 106520
Main Authors Dat, Ngo Dinh, Anh, Vu Minh, Quan, Tran Quoc, Duc, Pham Truong, Duc, Nguyen Dinh
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.04.2020
Subjects
Bees algorithm
Critical buckling load
Nonlinear stability
Optimal design
Organic solar cell
Nonlinear stability
Bees algorithm
Critical buckling load
Organic solar cell
Optimal design
Online AccessGet full text
ISSN0263-8231
1879-3223
DOI10.1016/j.tws.2019.106520

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Abstract This paper carries out the nonlinear stability of nanocomposite multilayer organic solar cell (NMOSC) subjected to axial compressive loads. The model of organic solar cell is assumed to consist five layers: Al, P3HT:PCBM, PEDOT:PSS, IOT and Glass. Based on the classical plate theory, the basic equations are established taking into account the effect of elastic foundations and initial imperfection. The approximation solutions are selected based on the boundary conditions of the four edges of NMOSC. The equation which indicates the relationship between axial compressive loads and deflection amplitude of NMOSC is obtained by using the Galerkin method. Bees Algorithm is applied to maximize the value of critical buckling load with nine variables including the thickness of five layers, the length and the width of NMOSC and two stiffness coefficients of elastic foundations. The numerical results show the effect of geometrical and material parameters, initial imperfection and elastic foundations on the nonlinear static stability and the critical buckling load of NMOSC. Optimal values of nine geometrical parameters of NMOSC are also determined. •The nonlinear stability of nanocomposite multilayer organic solar cell is investigated.•The classical plate theory is used to establish basic equations.•The effect of elastic foundations and initial imperfection are taken into account.•Effects of material and geometrical properties, elastic foundations and initial imperfection are discussed.•Bees Algorithm is used to determine the maximum value of critical buckling load depending on nine variables.
AbstractList This paper carries out the nonlinear stability of nanocomposite multilayer organic solar cell (NMOSC) subjected to axial compressive loads. The model of organic solar cell is assumed to consist five layers: Al, P3HT:PCBM, PEDOT:PSS, IOT and Glass. Based on the classical plate theory, the basic equations are established taking into account the effect of elastic foundations and initial imperfection. The approximation solutions are selected based on the boundary conditions of the four edges of NMOSC. The equation which indicates the relationship between axial compressive loads and deflection amplitude of NMOSC is obtained by using the Galerkin method. Bees Algorithm is applied to maximize the value of critical buckling load with nine variables including the thickness of five layers, the length and the width of NMOSC and two stiffness coefficients of elastic foundations. The numerical results show the effect of geometrical and material parameters, initial imperfection and elastic foundations on the nonlinear static stability and the critical buckling load of NMOSC. Optimal values of nine geometrical parameters of NMOSC are also determined. •The nonlinear stability of nanocomposite multilayer organic solar cell is investigated.•The classical plate theory is used to establish basic equations.•The effect of elastic foundations and initial imperfection are taken into account.•Effects of material and geometrical properties, elastic foundations and initial imperfection are discussed.•Bees Algorithm is used to determine the maximum value of critical buckling load depending on nine variables.
ArticleNumber 106520
Author Duc, Nguyen Dinh
Dat, Ngo Dinh
Duc, Pham Truong
Anh, Vu Minh
Quan, Tran Quoc
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Keywords Nonlinear stability
Bees algorithm
Critical buckling load
Organic solar cell
Optimal design
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Snippet This paper carries out the nonlinear stability of nanocomposite multilayer organic solar cell (NMOSC) subjected to axial compressive loads. The model of...
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StartPage 106520
SubjectTerms Bees algorithm
Critical buckling load
Nonlinear stability
Optimal design
Organic solar cell
Title Nonlinear stability and optimization of thin nanocomposite multilayer organic solar cell using Bees Algorithm
URI https://dx.doi.org/10.1016/j.tws.2019.106520
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