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Field measurements reveal insights into the impact of turbulent wind on loads experienced by parabolic trough solar collectors

Ulrike Egerer, Scott Dana, David Jäger, Brooke J. Stanislawski, Geng Xia, Shashank Yellapantula

2024Solar Energy14 citationsDOIOpen Access PDF

Abstract

To ensure efficient and reliable operation of a concentrating solar-thermal power (CSP) plant, its solar collector field needs to accurately focus sunlight. The optical efficiency and structural integrity of the solar collectors is significantly influenced by wind conditions in the field. In this study, we present insights into dynamic wind loading on parabolic trough CSP collectors. We derive novel conclusions by analyzing a first-of-a-kind measurement campaign of wind and structural loads, performed at an operational CSP plant. Previous research primarily relied on wind tunnel tests and simulations, leaving uncertainty about wind loading effects in operational settings. We demonstrate that the parabolic trough field significantly alters the turbulent wind field within the collector field, especially under winds perpendicular to the trough rows. Our measurements within the trough field show reduced wind speeds, changes in wind direction and turbulence properties, and vortex shedding from the trough assemblies. These modifications to the wind field directly impact both static and dynamic support structure loads. Our measurements reveal higher wind loads on trough assemblies compared to those observed previously in wind tunnel tests. The insights from this study offer a novel perspective on our understanding of wind-driven loads on CSP collectors. By informing the development of next-generation design tools and models, this research paves the way for enhanced structural integrity and improved optical performance in future parabolic trough systems. • Wind loads on concentrating solar collectors impact their performance and reliability. • We measure wind loading on parabolic trough collectors in an operational plant. • We show novel insights about how a turbulent flow interacts with the collector field. • Static and dynamic wind loads on collectors are higher than observed previously in wind tunnels. • We characterize vortex shedding off exterior collectors.

Topics & Concepts

Parabolic troughTrough (economics)TurbulenceMeteorologySolar windAtmospheric sciencesEnvironmental scienceField (mathematics)Wind speedMechanicsGeophysicsGeologyPhysicsPlasmaMathematicsThermalQuantum mechanicsPure mathematicsEconomicsMacroeconomicsSolar Thermal and Photovoltaic SystemsPhotovoltaic System Optimization TechniquesSolar Radiation and Photovoltaics
Field measurements reveal insights into the impact of turbulent wind on loads experienced by parabolic trough solar collectors | Litcius