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Plasma actuator effects on the flow physics of dynamic stall for a vertical axis wind turbine

Zare Chavoshi, M ; Sharif University of Technology | 2022

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  1. Type of Document: Article
  2. DOI: 10.1063/5.0099993
  3. Publisher: American Institute of Physics Inc , 2022
  4. Abstract:
  5. Darrieus type vertical axis wind turbines have several advantages over other wind turbines for local electricity generation in urban environments. However, the main aerodynamic challenge is the negative impacts of the dynamic stall phenomenon on the turbine performance. This study numerically scrutinizes the effects of plasma actuators on the dynamic stall control and performance improvement of a Darrieus turbine. For this sake, unsteady Reynolds-averaged Navier-Stokes equations are solved using a pressure-based finite volume method. The Suzen-Hoang plasma actuator model is employed to calculate the body forces attributed to the plasma actuator. First, the dynamic stall characteristics of the turbine blade with no plasma actuator are explored. Then, three plasma actuator configurations (i.e., inboard, outboard, and double-sided) are considered. According to the results of the clean blade, the aerodynamic performance mainly depends on the reverse Karman vortex formation at the onset of the down-stroke motion and counterclockwise vortex formation on the blade suction side. The results of plasma configurations indicate that the inboard and double-sided actuators enhance the turbine power output by 10%, while the outboard actuator effects are negligible. Moreover, the plasma actuator is effective only in the down-stroke motion of the blade. Results also show that the inboard and double-sided plasma actuators eliminate the reverse Karman vortex and significantly reduce the counterclockwise vortex size, increasing the lift force and connection point moment. Consequently, the inboard and double-sided plasma actuators remove the negative torque generation in azimuth angles of 135° to 180°, primarily responsible for the output power enhancement. © 2022 Author(s)
  6. Keywords:
  7. Aerodynamic stalling ; Finite volume method ; Navier Stokes equations ; Optical resonators ; Turbine components ; Turbomachine blades ; Vortex flow ; Wind turbine blades ; Darrieus ; Double sided ; Dynamic stalls ; Electricity-generation ; Flow physics ; Karman vortices ; Plasma actuator ; Urban environments ; Vertical axes wind turbines ; Vortex formation ; Actuators
  8. Source: Physics of Fluids ; Volume 34, Issue 7 , 2022 ; 10706631 (ISSN)
  9. URL: https://pubs.aip.org/aip/pof/article-abstract/34/7/075131/2847393/Plasma-actuator-effects-on-the-flow-physics-of?redirectedFrom=fulltext