摘要
首先基于有限元方法,建立双玻光伏组件仿真模型,并对仿真结果进行实验验证;然后选取光伏组件边框的长度、宽度、高度和厚度为影响因素,以组件成本最小和强度最优为目标进行多次正交试验分析;最后,通过Pareto最优解方法获得光伏组件的最佳尺寸。结果表明:组件中心最大变形实验值与仿真值的最大误差仅为7.33%,证明仿真结果的准确性;最大应力随长度的增加而上升,随宽度的增加先上升后下降,随高度的增加而下降,随厚度的增加无明显变化;单位面积价格随长度的增加而下降,随宽度的增加略微下降,随高度的增加而大幅上升,随厚度的增加而上升;当组件长度为1200 mm,宽度为787.5 mm,高度为37.5 mm,厚度为1.5 mm时,满足应力要求且成本最低,与初始结构相比成本降低8.41%。
Firstly,this study establishes the simulation model of double-glass photovoltaic module based on the finite element method and verifies the simulation results experimentally.Then the length,width,height and thickness of the photovoltaic module are selected as influencing factors,and multiple orthogonal design is carried out taking the minimum module cost and optimal strength as the objective.Finally,the optimal size of the photovoltaic module is obtained by the Pareto method.The results show that the maximum error between the experimental and simulated values of the component center deformation is only 7.33%,which Verifies the accuracy of the simulation results.The maximum stress increases with the increase of length,increases first and then decreases with the increase of width,decreases with the increase of height,and has no obvious change with the increase of thickness.The price decreases with the increase of length,slightly decreases with the increase of width,greatly increases with the increase of height,and increases with the increase of thickness.When the module length,width,height,and thickness are 1200 mm,787.5 mm,37.5 mm,and 1.5 mm,respectively,the stress requirement is satisfied and the cost is the lowest.The cost of optimized structure is reduced by 8.41% compared with the initial structure.
作者
关鹏
张家瑞
朱宸
武谦
姚玉东
李彤
Guan Peng;Zhang Jiarui;Zhu Chen;Wu Qian;Yao Yudong;Li Tong(School of Aero-engine,Shenyang Aerospace University,Shenyang 110136,China;LONGi Solar Technology Co.,Ltd.,Taizhou 225300,China)
出处
《太阳能学报》
EI
CAS
CSCD
北大核心
2023年第4期432-438,共7页
Acta Energiae Solaris Sinica
基金
国家自然科学基金(11702177)
辽宁省教育厅面上项目(LJKZ0182)
沈阳航空航天大学校引进人才科研启动基金(21YB03)。
关键词
光伏组件
正交试验设计
有限元
双玻
组件优化
多目标优化
PARETO最优解
photovoltaic modules
orthogonal design
finite element
double glass
component optimization
multi-objective optimal
Pareto optimal solutions
