Ultimate Wind Energy Course For Electrical Engineering:

Our comprehensive program is meticulously crafted to equip you with the essential skills and knowledge required to thrive in your chosen field. Developed by seasoned professionals with years of industry experience, this course is ideal for those seeking to kickstart their careers or enhance their existing skill set.

Featuring an engaging audio-visual presentation and easily digestible modules, our program facilitates a self-paced learning experience. Our dedicated online support team is available on weekdays to provide assistance throughout your journey.

Key Learning Outcomes

• Grasp the fundamentals and their practical applications.
• Cultivate the necessary skills for success in your field.
• Apply newfound knowledge to real-world scenarios.
• Develop effective solutions for relevant topics.
• Elevate your employability and career prospects.

Course Curriculum

• Module 01: Wind Energy Promo
• Module 02: Introduction to Wind Energy Course
• Module 03: Selection of Type of Wind Turbine
• Module 04: Rotor Solidity and Selection of Number of Rotor Blades
• Module 05: Gearbox in Wind Turbines
• Module 06: Power Available in the Wind Spectra
• Module 07: Power Extracted by the Wind Turbine
• Module 08: Betz Limit and Maximum Rotor Efficiency
• Module 09: Factors Affecting Wind Speed and Density &#; Height of Tower
• Module 10: Factors Affecting Air Density
• Module 11: Example
• Module 12: Example
• Module 13: Applied Force on Wind Turbine, Torque Coefficient and the Importance of the TSR
• Module 14: Example
• Module 15: Wind Turbine Generator Characteristics
• Module 16: Example
• Module 17: Effect of Rotor Diameter and Generator Size on Power
• Module 18: Wind Turbines Spacing
• Module 19: Wind Farm Feasibility Study
• Module 20: Important Statistical Definitions
• Module 21: Example
• Module 22: Example
• Module 23: Method of Bins
• Module 24: Weibull and Rayleigh Probability Density Functions
• Module 25: Determination of Weibull Parameters
• Module 26: Important Note on Weibull Distribution
• Module 27: Example
• Module 28: Determination of Weibull Parameters Using Graphical Method
• Module 29: Example
• Module 30: Example
• Module 31: Quick Note on Weibull Example
• Module 32: Power Control of Wind Turbines
• Module 33: Aerodynamics of Wind Turbines
• Module 34: Pitch Controlled Wind Turbines
• Module 35: Passive Stall Controlled Wind Turbines
• Module 36: Active Stall Controlled Wind Turbines
• Module 37: Introduction to Maximum Power Point Tracking Wind Turbines (MPPT)
• Module 38: Tip Speed Ratio (TSR) Control
• Module 39: Optimal Torque Control (OT) MPPT Algorithm
• Module 40: Power Signal Feedback (PSF) Control
• Module 41: Perturbation and Observation (P_O) or Hill-Climb Searching (HCS)
• Module 42: Electricity Generation Using Wind Turbines
• Module 43: Permanent Magnet Synchronous Generator (PMSG)
• Module 44: Wound Rotor Synchronous Generator (WRSG)
• Module 45: Doubly-Fed Induction Generator (DFIG)
• Module 46: Brushless Permanent Magnet DC Generator (PMDC)
• Module 47: Squirrel-Cage Induction Generator
• Module 48: Wound Rotor Induction Generator
• Module 49: Introduction to Different Types of Towers
• Module 50: Tubular Steel Wind Turbine Tower
• Module 51: Lattice Wind Turbine Tower
• Module 52: Concrete Wind Turbine Tower
• Module 53: Hybrid Wind Turbine Tower
• Module 54: Introduction to Brakes in Wind Turbine
• Module 55: Rotor Brakes in Wind Turbine
• Module 56: Pitch Drive or Aerodynamic Brakes in Wind Turbine
• Module 57: Simulation of a Wind Turbine System Using ETAP Program
• Module 58: Introduction to MATLAB Simulation of Wind Turbine
• Module 59: Introduction to Cp Model and Lookup Table in MATLAB Simulink
• Module 60: Cp Plotting in MATLAB Simulink
• Module 61: Cp Lookup Table in MATLAB Simulink
• Module 62: Modeling and Simulation of Wind Turbine
• Module 63: Modeling and Simulation of Wind Turbine
• Module 64: Introduction to MPPT in MATLAB Simulink
• Module 65: MPPT Simulation in MATLAB Simulink
• Module 66: Resource &#; Wind Energy Basics for Electrical Engineers

Designed to give you a competitive edge in the job market, this course offers lifetime access to materials and the flexibility to learn at your own pace, from the comfort of your home.

Why Choose Us?

• Learn at your own pace with 24/7 online access to course materials.
• Benefit from full tutor support available Monday through Friday.
• Acquire essential skills in the convenience of your home through informative video modules.
• Enjoy 24/7 assistance and advice via email and live chat.
• Study on your preferred device – computer, tablet, or mobile.
• Gain a thorough understanding of the course content.
• Improve professional skills and earning potential upon completion.
• Access lifetime course materials and expert guidance.
• Enjoy the convenience of online learning with flexible schedules.

Why Enroll in This Course?

Our program provides a comprehensive introduction to the subject matter, laying a solid foundation for further study. It empowers students to acquire knowledge and skills applicable to both their professional and personal lives.

Assessment

The course incorporates quizzes to evaluate your understanding and retention of the material. These quizzes pinpoint areas for further practice, allowing you to review course materials as needed. Successfully passing the final quiz qualifies you for a certificate of achievement.

Requirements

There are no formal requirements for this course, it is open to anyone who is interested in learning the material.

Career Path

Our course is meticulously designed to equip you for success in your chosen field. Upon completion, you’ll have the qualifications to pursue diverse career opportunities across various industries.