This module introduces the principles of wind energy and the fundamental difference between wind shear and wind gradient. The various categories of the Beaufort scale are discussed as well as the primary forces that affect wind speed and direction. The purpose of a geographic coordinate system is described, and a comparison of angle of attack and lift to drag ratio is presented. The impact of the Betz limit on wind efficiency is covered, along with the fundamentals of Blade element momentum (BEM) theory. In addition, the student will learn how to calculate the tip speed ratio of a wind turbine and how to determine the power coefficient.
Learning Outcomes:
Upon completion of this module the student will be able to:
- Differentiate between air masses and air pressure
- Define the term cardinal direction
- Explain the purpose of a geographic coordinate system
- Compare laser doppler and sonic anemometers
- Name the three primary forces that affect wind speed and direction
- List the twelve categories of the Beaufort scale
- Differentiate between wind speed, air density, and blade radius
- Compare angle of attack and lift to drag ratio
- Calculate the tip speed ratio of a wind turbine
- Explain the difference between wind shear and wind gradient
- Describe the impact of the Betz limit on wind efficiency
- Determine the power coefficient of a wind turbine
- Describe the principle of Blade element momentum (BEM) theory