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Stability analysis of two-dimensional flat solar trackers using aerodynamic derivatives at different heights above ground

Juan A. Cárdenas-Rondón, Mikel Ogueta-Gutiérrez, Sebastián Franchini, Raúl Manzanares-Bercial

2023Journal of Wind Engineering and Industrial Aerodynamics24 citationsDOIOpen Access PDF

Abstract

In this paper the aerodynamic stability of a flat-plate solar tracker under two-dimensional conditions is studied for different conditions of incident wind speed, U∞, nominal angle of attack, αn∈−40∘,40∘, and shaft height - chord ratio H/B=0.3,0.4,0.5,0.6,1and2. The stability is studied through the analysis of the aerodynamic derivatives A2∗ and A3∗ whose behaviours as a function of U∞ are presented for the H/B range studied. Two methods of obtaining the derivatives (one in the time domain and the other one in the frequency domain) are presented. A method for calculating the effective damping coefficient of the solar tracker, ξeff, as a function of the incident wind speed, U∞, is presented. This method can be used for any solar tracker structural characteristics (Jmech, Cmech and Kmech). With this method, the critical speed, Ucrit, can be determined by imposing the condition ξeff=0. The method was validated experimentally using the results of two different experimental set-ups.

Topics & Concepts

AerodynamicsChord (peer-to-peer)Stability (learning theory)Range (aeronautics)Wind speedAngle of attackPhysicsMechanicsGeometryComputational physicsMathematicsAerospace engineeringMeteorologyEngineeringComputer scienceDistributed computingMachine learningSolar Thermal and Photovoltaic SystemsHeat Transfer MechanismsWind and Air Flow Studies
Stability analysis of two-dimensional flat solar trackers using aerodynamic derivatives at different heights above ground | Litcius