Description
This thesis examines themodeling, analysis, and control system design issues for scramjet powered hypersonic vehicles. A nonlinear three degrees of freedom longitudinal model which includes aero-propulsion-elasticity effects was used for all analyses. This model is based upon classical compressible flow and Euler-Bernouli structural concepts. Higher fidelity computational fluid dynamics and finite element methods are needed for more precise intermediate and final evaluations. The methods presented within this thesis were shown to be useful for guiding initial control relevant design. The model was used to examine the vehicle's static and dynamic characteristics over the vehicle's trimmable region. The vehicle has significant longitudinal coupling between the fuel equivalency ratio (FER) and the flight path angle (FPA). For control system design, a two-input two-output plant (FER - elevator to speed-FPA) with 11 states (including 3 flexible modes) was used. Velocity, FPA, and pitch were assumed to be available for feedback. Aerodynamic heat modeling and design for the assumed TPS was incorporated to original Bolender's model to study the change in static and dynamic properties. De-centralized control stability, feasibility and limitations issues were dealt with the change in TPS elasticity, mass and physical dimension. The impact of elasticity due to TPS mass, TPS physical dimension as well as prolonged heating was also analyzed to understand performance limitations of de-centralized control designed for nominal model.
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Details
Title
- Modeling, analysis, and control of a hypersonic vehicle with significant aero-thermo-elastic-propulsion interactions: elastic, thermal and mass uncertainty
Contributors
- Khatri, Jaidev (Author)
- Rodriguez, Armando Antonio (Thesis advisor)
- Tsakalis, Konstantinos (Committee member)
- Wells, Valana (Committee member)
- Arizona State University (Publisher)
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2011
Subjects
- Electrical Engineering
- Aerospace Engineering
- Mechanical Engineering
- Aero-Thermo-Elastic
- Control design
- Hypersonic Vehicle
- Hypersonic planes--Mathematical models.
- Hypersonic planes
- Airbreathing launch vehicles--Mathematical models.
- Airbreathing launch vehicles
- Flight control--Mathematical models.
- Flight control
Resource Type
Collections this item is in
Note
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thesisPartial requirement for: M.S., Arizona State University, 2011
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bibliographyIncludes bibliographical references (p. 207-220)
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Field of study: Electrical engineering
Citation and reuse
Statement of Responsibility
by Jaidev Khatri