NREL 5 MW Wind Turbine : CFD Analysis with Validation
Expert CFD Analysis of Wind Turbines: Advanced Simulation Techniques and Validation with ANSYS Fluent
NREL 5 MW Wind Turbine : CFD Analysis with Validation udemy course free download
Expert CFD Analysis of Wind Turbines: Advanced Simulation Techniques and Validation with ANSYS Fluent
This course offers a comprehensive and in-depth exploration of computational fluid dynamics (CFD) as it applies to the analysis of a 5 MW wind turbine, a vital component in harnessing wind power for sustainable electricity generation. In 2023, wind energy contributed approximately 7.81% of global electricity production, underscoring the critical need for efficient turbine design in today’s renewable energy landscape. Using the Dutch Offshore Wind Energy Converter (DOWEC) 6 MW turbine as a reference, students will learn the complete CFD process, encompassing everything from geometry preparation to final results validation.
Participants will start by defining the computational domain through the import of their SolidWorks models into SpaceClaim. They will utilize a watertight workflow to generate a high-quality mesh in Fluent Meshing, which is essential for accurate simulations. This foundational work will prepare them for conducting detailed simulations in ANSYS Fluent, where they will analyze turbine performance under specific operational conditions, including an inlet velocity of 11.4 m/s and a rotational speed of 12.1 RPM. With an impressive simulation error margin of only 0.3%, students will cultivate valuable skills in result validation and learn how to interpret aerodynamic performance metrics effectively.
By the end of the course, students will have mastered advanced CFD techniques specifically tailored for large wind turbines. This hands-on experience will empower them to tackle real-world challenges in turbine design and optimization, equipping them with the knowledge and skills necessary to contribute meaningfully to the renewable energy sector. Graduates of this course will be well-prepared to pursue impactful careers in engineering, research, and innovation in the field of sustainable energy.
