Ultimate Wind Energy Course for Electrical Engineering

• Types of wind turbines
• Rotor solidity and selection of number of rotor blades
• Power extracted by the turbine from the wind
• Betz limit and maximum rotor efficiency
• Factors affecting wind speed and density
• Applied force on the wind turbine, torque coefficient, and the importance of the TSR
• Wind turbine generator characteristics
• Effect of rotor diameter and generator size on power
• Wind turbines spacing
• Wind farm feasibility study
• Weibull and Rayleigh probability density functions
• Determination of Weibull parameters
• Determination of Weibull parameters using the graphical method
• Aerodynamics of wind turbines
• Pitch-controlled wind turbines
• Passive stall controlled wind turbines
• Active stall controlled wind turbines
• Maximum power point tracking in wind turbines
• Tip speed ratio (TSR) control
• Optimal torque control (OT) MPPT algorithm
• Power signal feedback (PSF) control
• Perturbation and observation (P&O) or hill-climb searching (HCS)
• Electricity generation using wind turbines
• Permanent magnet synchronous generator (PMSG)
• Wound rotor synchronous generator (WRSG)
• Doubly-fed induction generator (DFIG)
• Brushless permanent magnet DC generator (PMDC)
• Squirrel-cage induction generator
• Wound rotor induction generator
• Tubular steel wind turbine tower
• Lattice wind turbine tower
• Concrete wind turbine tower
• Hybrid wind turbine tower
• Brakes in the wind turbine
• Rotor brakes in the wind turbine
• Pitch drive or aerodynamic brakes in the wind turbine
• Simulation of a wind turbine system using the ETAP program
• MATLAB simulation of the wind turbine
• Cp plotting and lookup table in MATLAB
• MPPT in MATLAB Simulink

"Ultimate Wind Energy Course for Electrical Engineering"

The only course out there with everything you need to know about Wind Energy from A to Z

Throughout the course, you will learn:

• Types of wind turbines.

• Rotor solidity and selection of the number of rotor blades.

• Gearbox in wind turbines.

• The power extracted by the turbine from the wind.

• Betz limit and maximum rotor efficiency.

• Factors affecting wind speed and density.

• Applied force on the wind turbine, torque coefficient, and the importance of the TSR.

• Wind turbine generator characteristics.

• Effect of the rotor diameter and generator size on power.

• Wind turbines spacing.

• Wind farm feasibility study.

• Weibull and Rayleigh probability density functions.

• Determination of Weibull parameters.

• Determination of Weibull parameters using the graphical method.

• Aerodynamics of wind turbines.

• Pitch-controlled wind turbines.

• Passive stall-controlled wind turbines.

• Active stall-controlled wind turbines.

• Maximum power point tracking in wind turbines.

• Tip speed ratio (TSR) control.

• Optimal torque control (OT) MPPT algorithm.

• Power signal feedback (PSF) control.

• Perturbation and observation (P&O) or hill-climb searching (HCS).

• Electricity generation using wind turbines.

• Permanent magnet synchronous generator (PMSG).

• Wound rotor synchronous generator (WRSG).

• Doubly-fed induction generator (DFIG).

• Brushless permanent magnet DC generator (PMDC).

• Squirrel-cage induction generator.

• Wound rotor induction generator.

• Tubular steel wind turbine tower.

• Lattice wind turbine tower.

• Concrete wind turbine tower.

• Hybrid wind turbine tower.

• Brakes in the wind turbine.

• Rotor brakes in the wind turbine.

• Pitch drive or aerodynamic brakes in the wind turbine.

• Simulation of a wind turbine system using the ETAP program.

• MATLAB simulation of the wind turbine.

• Cp plotting and lookup table in MATLAB.

• MPPT in MATLAB Simulink.

After Taking This Course, You Will Be Able To

1. Understand everything about wind energy systems, such as the basic components, factors affecting wind generation, the different probability distribution functions used to represent wind data, and wind feasibility study.

2. Understand different control systems used in the wind turbine and the types of electrical generators utilized.

3. You will be able to simulate the wind turbine system in both ETAP and MATLAB programs.

   
   

Bonus Gift:

You will also get the slides for the Wind Energy Course for those who are interested in them or have them as a revision for themselves

• 231 Pages of Wind Energy Course Slides.

Take this course if you've been looking for ONE COURSE with in-depth insight into Wind Energy.