A 3 bladed wind has a rotor diameter of 38.1 m. The blade chord is constant and equal to 1.0 m. Each blade has a non-rotating natural frequency of 1.67 Hz. In operation, rotating at 50 rpm, each blade has a natural frequency of 1.92 Hz. The pitch angle of the blade is 1.8 degrees. (The hub is sufficiently small that it can be ignored.) The turbine is operating in a wind of 8 m/s. The airfoil lift curve slope is equal to 2π. Air density is 1.225 kg/m3. If the blade has a mass of 898 kg, Using the hinge spring blade model, find the flapping angle during these conditions. How far
A 3 bladed wind has a rotor diameter of 38.1 m. The blade chord is constant and equal to 1.0 m. Each blade has a non-rotating natural frequency of 1.67 Hz. In operation, rotating at 50 rpm, each blade has a natural frequency of 1.92 Hz. The pitch angle of the blade is 1.8 degrees. (The hub is sufficiently small that it can be ignored.) The turbine is operating in a wind of 8 m/s. The airfoil lift curve slope is equal to 2π. Air density is 1.225 kg/m3. If the blade has a mass of 898 kg, Using the hinge spring blade model, find the flapping angle during these conditions. How far
Related questions
Question
A 3 bladed wind has a rotor diameter of 38.1 m. The blade chord is constant and equal to 1.0 m. Each
blade has a non-rotating natural frequency of 1.67 Hz. In operation, rotating at 50 rpm, each blade has a natural
frequency of 1.92 Hz. The pitch angle of the blade is 1.8 degrees. (The hub is sufficiently small that it can be
ignored.) The turbine is operating in a wind of 8 m/s. The airfoil lift curve slope is equal to 2π. Air density is
1.225 kg/m3. If the blade has a mass of 898 kg, Using the hinge spring blade model, find the flapping angle
during these conditions. How far is the tip of the blade from the plane of rotation?.
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
This is a popular solution!
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 1 images
