Aero-Structural Design

Aero-Structural Design For a 3.4 MW Wind Turbine Using Plasma Actuator Based Load Control

The last few decades have seen a significant growth in wind turbine size and capacity. Due to larger rotors, blades experience higher …

Mohammad Sadman Sakib, Mayank Chetan, D. Todd Griffith

System-level design studies for large rotors

textlessptextgreatertextlessstrongtextgreaterAbstract.textless/strongtextgreater We examine the effect of rotor design choices on the …

Daniel S. Zalkind, Gavin K. Ananda, Mayank Chetan, Dana P. Martin, Christopher J. Bay, Kathryn E. Johnson, Eric Loth, D. Todd Griffith, Michael S. Selig, Lucy Y. Pao

Aero-Structural Design Study of Extreme-Scale Segmented Ultralight Morphing Rotor Blades

In this paper we present a study to explore the design space of aero-structural performance of extreme-scale wind turbine blades. …

Mayank Chetan, Mohammad S. Sakib, D Todd Griffith, Shulong Yao

Flutter Predictions in the Design of Extreme-Scale Segmented Ultralight Morphing Rotor Blades

With the increase in demand for and reduction in costs of clean energy, wind turbines offer a very promising solution. However, to make …

Mayank Chetan, D. Todd Griffith, Shulong Yao

Assessment of flutter prediction and trends in the design of large-scale wind turbine rotor blades

With the progression of novel design, material and manufacturing technologies, the wind energy industry has successfully produced …

D. Todd Griffith, Mayank Chetan