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SIMULATION STUDY ON WIND STABILITY FOR INTEGRATIVE MULTIPLE GREEN ENERGY HARVESTERS | |
Author Name Mythili V, Surya Prakash A, Vasanthasudar M, Janeshwar K Abstract As the global demand for renewable energy grows, integrating multiple green energy harvesters has become a critical area of focus. This study explores wind stability's role in optimizing the performance and reliability of hybrid energy harvesting systems. A simulation framework is developed to analyze the aerodynamic interactions between wind turbines and complementary energy harvesters, such as solar panels and piezoelectric systems, under varying wind conditions. Key performance metrics—power output, efficiency, and structural stability— are evaluated across diverse configurations and environmental scenarios. The results demonstrate how wind turbulence and directional variability affect energy output and system longevity, providing insights for designing stable, efficient, and sustainable green energy systems. These findings pave the way for advancing hybrid renewable energy solutions in regions with fluctuating wind resources.
Key Words: Wind stability, hybrid energy systems, green energy harvesters, wind turbines, renewable energy integration, aerodynamic interactions, energy efficiency. Published On : 2024-11-20 Article Download : |