Enroll Course: https://www.coursera.org/learn/wind-energy
In the ever-growing pursuit of sustainable energy solutions, wind power stands as a prominent and rapidly evolving field. For anyone looking to gain a deep understanding of this green technology, whether for general insight or a career in wind energy engineering, Coursera’s ‘Wind Energy’ course is an exceptional starting point. Taught by experts from Denmark, a global leader in wind pioneering, this course offers a comprehensive overview of the fundamental disciplines within wind energy engineering.
The syllabus is meticulously structured, covering a wide array of essential topics. It begins with an introduction to the course itself, outlining learning objectives, structure, and the valuable interactions available through the Coursera forum. The economic aspects are thoroughly explored in ‘Wind Energy Economics: Value Creation and Metrics,’ equipping learners with the ability to perform financial assessments and calculate the cost of energy from wind.
Understanding the wind resource is crucial, and the course delves into ‘Introduction to Wind Atlases and the Global Wind Atlas,’ explaining how landscape features influence wind conditions and how to utilize global resources for identification and exploration. Practical application comes into play with ‘Wind Farm Design and Optimization,’ where systems engineering principles are applied to achieve the best performance at the lowest cost.
Forecasting is another vital component, with ‘Forecasting of Wind Power’ detailing motivations, data flow, error sources, and the importance of forecasting in renewable energy systems. The course also covers the ‘How and Why we measure the wind,’ detailing necessary parameters, instruments, and technologies. ‘Remote sensing for wind energy’ introduces learners to Radar, Lidar, and Sodar technologies for wind measurement, while ‘Load measurements on wind turbines’ explains the necessity and methods for measuring operational loads.
Theoretical underpinnings are not overlooked, with ‘One-Dimensional Momentum Theory and the Betz Limit for Maximum Power Production’ providing a derivation of the theoretical maximum power extraction. ‘Different Methods and Concepts for Harvesting Wind Energy’ explores various extraction devices, from horizontal to vertical axis turbines and even kite systems.
The material science behind wind energy is also a key focus. ‘Composite Materials for Wind Energy’ discusses their use in blades, predicting stiffness, and lifetime testing. This is complemented by ‘Fatigue Phenomenon and Life Prediction,’ which examines the causes of structural failure and methods for predicting material lifespan.
Practical aspects of blade development are covered in ‘Blade Testing and Modeling,’ introducing experimental methods and finite element modeling, and ‘Blade Design and Manufacturing,’ detailing the iterative design process and manufacturing steps.
Finally, the course touches upon grid integration with ‘Introduction to HVDC,’ focusing on VSC technology for offshore wind, and ‘Influence of fluctuating wind speed on system frequency and frequency control,’ explaining how wind variability impacts power system stability and control.
Overall, Coursera’s ‘Wind Energy’ course is a robust and highly recommended program for anyone interested in the renewable energy sector. It provides a solid foundation in both the theoretical and practical aspects of wind energy, delivered by knowledgeable instructors. The comprehensive syllabus ensures a well-rounded understanding, making it an invaluable resource for students, professionals, and enthusiasts alike.
Enroll Course: https://www.coursera.org/learn/wind-energy