Instability mechanism and failure criteria of large-span flexible PV support arrays under severe wind

IF 6 2区 工程技术 Q2 ENERGY & FUELS
Wenjie Li , Shitang Ke , Zebin Cai , Chunming Ji , Wenqing Wang , Lishan Wang , Hehe Ren
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引用次数: 0

Abstract

Compared with independent flexible PV support, the entire structure force performance and transfer mechanism of inter-row cables and inter-span rods of flexible PV support arrays are more complex, it is easy to have large vibration or even instability failure under strong wind. In this study, the three-span and five-row flexible PV support array of a 66 MW Fishery-PV Complementary demonstration site in the eastern coastal region of China is used as the research object. The rigid body pressure measurement wind tunnel test was designed and carried out, and the wind pressure distribution characteristics of the PV panels surface were analyzed. A three-dimensional explicit dynamics model of the flexible PV support array considering inter-row cables and inter-span rods is established, and the wind-induced dynamic response characteristics and instability processes of the large-span flexible PV support array are effectively simulated. Finally, the instability mechanism of the large-span flexible PV support array is revealed, and the dual failure criteria based on structural deformation and energy increment are proposed. Results demonstrated that the maximum values of displacement and von Mises stress of the large-span flexible PV support array are concentrated in the 1st row of the span in the windward side. The array under 0° and 180° wind direction angles induces local instability and failure at wind speeds of 51 m/s and 46 m/s due to the failure of the 1st row of triangular rods and crossed diagonal rods on the windward side, respectively, and the rods instability mechanisms are Eulerian buckling mechanism and Limit point buckling mechanism, respectively. When the axial compression ratio [Δ] > 0.1 or the strain energy increment [ΔU] > 1.0 × 105J of the instability rod, the structure will be locally destabilized. This paper presents a systematic work around the wind-induced response and instability characteristics of the large-span flexible PV support array, the results are of significance for the engineering application of solar energy generation structures.

强风作用下大跨度柔性光伏支撑阵失稳机理及失效准则
与独立柔性光伏支架相比,柔性光伏支架阵列的行间索和跨间杆的整体结构受力性能和传递机理更为复杂,在强风作用下容易产生较大的振动甚至失稳破坏。本研究以中国东部沿海地区66 MW渔业光伏互补示范点的三跨五排柔性光伏支撑阵列为研究对象。设计并进行了刚体压力测量风洞试验,分析了光伏板表面风压分布特征。建立了考虑行间索和跨间杆的柔性光伏支架阵列的三维显式动力学模型,有效模拟了大跨度柔性光伏支架阵列的风致动力响应特性和失稳过程。最后,揭示了大跨度柔性光伏支架阵的失稳机理,提出了基于结构变形和能量增量的双失效准则。结果表明:大跨度柔性光伏支架阵列的位移和von Mises应力的最大值集中在迎风侧跨度的第一行;在0°和180°风向角下,阵列在51 m/s和46 m/s风速下,由于迎风侧第一排三角形棒和交叉对角棒的破坏,导致阵列局部失稳和破坏,杆的失稳机制分别为欧拉屈曲机制和极限点屈曲机制。轴压比[Δ] >0.1或应变能增量[ΔU] >1.0 × 105J的失稳杆,将使结构局部失稳。本文系统地研究了大跨度柔性光伏支架阵列的风致响应和失稳特性,研究结果对太阳能发电结构的工程应用具有重要意义。
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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来源期刊
Solar Energy
Solar Energy 工程技术-能源与燃料
CiteScore
13.90
自引率
9.00%
发文量
0
审稿时长
47 days
期刊介绍: Solar Energy welcomes manuscripts presenting information not previously published in journals on any aspect of solar energy research, development, application, measurement or policy. The term "solar energy" in this context includes the indirect uses such as wind energy and biomass
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