Using Wind Energy to Carry out Basketball Special Physical Fitness Training—Calculation and Research on Aerodynamic Efficiency of Integrated Wind Turbine in Stadiums and Gymnasiums
DOI:
https://doi.org/10.52152/Keywords:
Wind Energy Utilization, Integrated Wind Turbine Systems, Aerodynamic Efficiency, Sports Facilities, Renewable Energy, Fitness TrainingAbstract
This study investigates the feasibility of using wind energy for basketball special physical fitness training by combining wind turbines in stadiums and gyms. The investigation focuses on measuring the aerodynamic efficiencies of the combined wind turbine systems. It starts with an analysis of wind energy utilization for fitness training, which signifies the potential benefit of harnessing the renewable energy in sports facilities. The investigation into the aerodynamic efficiency of the combined wind turbine systems, considers factors such as speed of wind, size of turbine, and energy output. Numerical simulation and measurements are conducted to determine the optimal design and placement of wind turbines in stadiums and gymnasiums. The results demonstrate the potential of wind energy to supplement traditional power sources in sports facilities, and provide sustainable energy solutions while boosting fitness and environmental awareness. The study reveals that with an average speed of 8 m/s, a properly integrated wind turbine system in a stadium or gymnasium can generate approximately 11-23% of the facility's electricity demand. This translates to an annual energy production of 510-1200 kWh per turbine, depending on the specific location and design considerations. The aerodynamic efficacy of the integrated wind turbine system is estimated to be around 40-50%, indicating a significant potential for energy savings and environmental impact reduction.