A novel simulation framework to estimate dynamic response of a solar panel array under stationary stochastic wind loads

Authors

• Hanshu Zhang, Coastal Carolina University
• You Jia Li, Department of Civil and Environmental Engineering
• Matthew J. DeJong, Department of Civil and Environmental Engineering

Document Type

Article

Publication Date

1-1-2026

Abstract

This paper presents a novel simulation framework for estimating the dynamic response of a full-scale ground-mounted solar panel array under stationary wind loads that are spatially correlated across the length of the solar panel array. Specifically, the framework uses mean pressure coefficient distributions along the length of a 1:10 prototype scale of the solar panel array from smooth inflow derived using the computational fluid dynamics (CFD) simulation software The Wind Engineering with Uncertainty Quantification (WE-UQ). Note that for the CFD simulation, the input wind field across the length of the solar panel array is uniform along the horizontal direction, and the wind field is smooth inflow. Next, the simulated stochastic wind loads are generated from the spatially varying and correlated stationary wind velocities along the full-scale solar panel array using a stochastic wave approach from the spectral representation method (SRM), as well as the mean pressure coefficients derived from the CFD simulation. Further, the simulated stochastic wind loads are applied to a solar panel array finite element model using the Open System for Earthquake Engineering Simulation (OpenSees) to simulate dynamic responses. Displacements of solar panel modules and torque strains on the torque tube are estimated to observe the performance of the solar panel array. The mode shapes and the corresponding frequencies can be identified from the results, and the accuracy can be validated by comparing the frequencies obtained from the solar panel model. Further, strong mean wind velocities are applied in the proposed simulation framework to assess the torsional strain of the torque tube. Consequently, the proposed simulation framework provides a valuable, novel tool for solar panel array analysis that is much more computationally efficient than existing methods.

Comments

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Recommended Citation

Zhang H, Li Y-J and DeJong MJ (2026) A novel simulation framework to estimate dynamic response of a solar panel array under stationary stochastic wind loads. Front. Built Environ. 12:1749310. doi: 10.3389/fbuil.2026.1749310. Available at https://digitalcommons.coastal.edu/physics-engineering/