Use of half-cylinder obstacle for enhancing aeroelastic energy harvesting

Abstract: This study aims to improve the performance of the galloping-based piezoelectric energy harvester (GPEH) by benefiting from two half-cylinder obstacles. Two half-cylinder obstacles are employed to construct a variable cross-section tube which changes the airflow characteristics near the GPEH placed inside. The performance of the GPEH in the variable cross-section tube is tested by wind tunnel experiments. The experimental results show that compared with the traditional GPEH, the cut-in speed of the GPEH with th… Show more

“…In addition, the computational fluid dynamics (CFD) always is conducted to simulate the cantilever beam vibration while working in the wind and fluid fields. For example, Wang et al [ 25 ] employed the CFD to qualitative interpretation to better understand the flow characteristics in the Laval nozzle structure. Andreas et al [ 26 ] investigated the vibration mitigation of a monopile Offshore Wind Turbine (OWT) under wind and sea wave excitation through an integrated FEA‐CFD simulation of offshore wind turbines.…”

Review on the Vibration Suppression of Cantilever Beam through Piezoelectric Materials

“…In addition, the computational fluid dynamics (CFD) always is conducted to simulate the cantilever beam vibration while working in the wind and fluid fields. For example, Wang et al [ 25 ] employed the CFD to qualitative interpretation to better understand the flow characteristics in the Laval nozzle structure. Andreas et al [ 26 ] investigated the vibration mitigation of a monopile Offshore Wind Turbine (OWT) under wind and sea wave excitation through an integrated FEA‐CFD simulation of offshore wind turbines.…”

Review on the Vibration Suppression of Cantilever Beam through Piezoelectric Materials