Theses most similar to Continuous curved near wake analysis for a lifting surface (Godwin, Melinda Dee; 1991) read it
Helicopter rotor blade loading calculations using an axisymmetric vortex sheet and the free wake method
Huh, Kevin S. (Kevin Sangmin) (1988)
- Advisor: Sheila E. Widnall
- Department of Aeronautics and Astronautics
Improved algorithms for the computation of induced velocities in propeller design
Buchoux, Frédéric (1995)
- Advisor: Justin E. Kerwin
- Department of Ocean Engineering
An enhanced propeller design program based on propeller vortex lattice lifting line theory
Chung, Hsin-Lung (2007)
- Advisor: Richard W. Kimball
- Department of Mechanical Engineering
- Advisor: Edward M. Greitzer
- Department of Aeronautics and Astronautics
Numerically-based ducted propeller design using vortex lattice lifting line theory
Stubblefield, John M (2008)
- Advisors: Patrick J. Keenan; Richard W. Kimball
- Department of Mechanical Engineering
Computational methods for non-planar vortex wake flow fields with applications to conventional and rotating wings
Stremel, Paul Michael (1982)
- Advisor: Earll M. Murman
- Department of Aeronautics and Astronautics
- Advisor: Justin E. Kerwin
- Department of Mechanical Engineering; Department of Ocean Engineering
Integrated lifting-surface and Euler/boundary-layer theory analysis method for marine propulsors
Hanson, Christopher J. (Christopher John), 1971- (2001)
- Advisors: Douglas P. Hart, Victor Wong; Justin E. Kerwin
- Department of Mechanical Engineering; Department of Ocean Engineering
Computational improvements to predict propeller performance at off design conditions
Duncan, William E. (William Earle), 1974- (2002)
- Advisor: David V. Burke, Jr.
- Department of Mechanical Engineering; Department of Ocean Engineering
A comparison of the velocity fields associated with vorticities of three different origins
Chiang, Gilbert W. (Gilbert Wang Jit) (1992)
- Advisor: Eugene E. Covert
- Department of Aeronautics and Astronautics