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Control-oriented Analysis of Aerothermoelastic Effects for a Hypersonic Vehicle

2008
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Release : 2008
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Book Synopsis Control-oriented Analysis of Aerothermoelastic Effects for a Hypersonic Vehicle by : Sanketh Bhat

Download or read book Control-oriented Analysis of Aerothermoelastic Effects for a Hypersonic Vehicle written by Sanketh Bhat. This book was released on 2008. Available in PDF, EPUB and Kindle. Book excerpt: ABSTRACT: Hypersonic flight is seen as a feasible solution to make space travel faster, safer and more affordable. The design of the Air-breathing hypersonic vehicle is such that there is coupling between the structure and the propulsion system. Therefore, the aerodynamic, propulsion and the structural effects must be accounted to effectively model the vehicle. The vibrations from the structure affect the performance of the vehicle. Hence, vibration attenuation is a critical requirement for hypersonic vehicles. The problems of vibration are compounded by variations in heating during flight. Structural variations resulting from the tremendous heating incurred during hypersonic flight is mitigated by a thermal protection system (TPS); however, such mitigation is accompanied by an increase in weight that can be prohibitive. The actual design of a thermal protection system can be chosen to vary the level of heating reduction, and associated weight, across the structure.

Aerothermoelastic Considerations for a Control Surface on an Air-breathing Hypersonic Vehicle

2009
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Release : 2009
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Book Synopsis Aerothermoelastic Considerations for a Control Surface on an Air-breathing Hypersonic Vehicle by : Benjamin R. Szpak

Download or read book Aerothermoelastic Considerations for a Control Surface on an Air-breathing Hypersonic Vehicle written by Benjamin R. Szpak. This book was released on 2009. Available in PDF, EPUB and Kindle. Book excerpt: Abstract: Air-breathing hypersonic vehicles have risen to the forefront of the aerospace research community in reaction to the requirements of NASA and the US Air Force. NASA has interest in developing a next generation Reusable Launch Vehicle and the US Air Force is interested in an unmanned hypersonic vehicle. Recent research has focused on developing comprehensive models in order to successfully design a vehicle capable of operating in the severe hypersonic environment. Due to the layout of this class of vehicle, where the propulsion system is fully integrated into the lifting body fuselage, a tight coupling exists between the airframe, propulsion system, control system, and aerodynamics. This characteristic necessitates a multi-disciplinary approach to modeling for control design. To achieve this, a simplified model of each subsystem is needed to efficiently perform a multi-disciplinary analysis. Two important and challenging areas for multi-disciplinary modeling are the incorporation of complex aerodynamic and aerothermoelastic phenomena. The focus of this research is on the development of a model for the control surface. Specifically an aerothermoelastic model, based on a plate representation, has been developed for the vehicle control surface. This model was adapted from a previous model, developed at the Air Force Research Laboratory, to incorporate important characteristics such as taper and sweep of the control surface. Thus, the model more realistically represents the geometry of a control surface for a hypersonic vehicle. The structural model developed was then verified using finite element analysis to compare the free vibration frequencies and modeshapes. Since the structural dynamic characteristics of a solid plate are not compatible to those of a shell structured wing, the structural properties were modified to match the first two frequencies of a representative wing, namely the F-104 Lockheed Starfighter wing. As the temperature of a plate increases, the first two frequencies begin to coalesce. This coalescence of frequencies leads to a phenomena known as flutter. As the temperature of the plate was increased the aerothermoelastic response was computed at a constant Mach number until the onset of flutter. By implementing a flexible control surface model, the response of the wing to control inputs and fuselage deformations could also be investigated. Both of these effects are modeled as base motion of the cantilevered plate. Second order piston theory, a commonly used model for hypersonic aerodynamics, was used to calculate the aerodynamic forces on the plate. Results presented provide insight into the importance of aerothermoelastic effects for control oriented modeling, as well as the effect of plate sweep and taper compared to a simple square plate representation.

Modeling, Analysis, and Control of a Hypersonic Vehicle with Significant Aero-thermo-elastic-propulsion Interactions, and Propulsive Uncertainty

2010 Flight control
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Release : 2010
Genre : Flight control
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Book Synopsis Modeling, Analysis, and Control of a Hypersonic Vehicle with Significant Aero-thermo-elastic-propulsion Interactions, and Propulsive Uncertainty by : Akshay Shashikumar Korad

Download or read book Modeling, Analysis, and Control of a Hypersonic Vehicle with Significant Aero-thermo-elastic-propulsion Interactions, and Propulsive Uncertainty written by Akshay Shashikumar Korad. This book was released on 2010. Available in PDF, EPUB and Kindle. Book excerpt: This thesis examines the modeling, 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 analysis. This model is based upon classical compressible flow and Euler-Bernouli structural concepts. Higher fidelity computational fluid dynamics and finite elementmethods are needed formore 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 vehicles static and dynamic characteristics over the vehicles 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.

Active Control of Aerothermoelastic Effects for a Conceptual Hypersonic Aircraft

1990
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Release : 1990
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Book Synopsis Active Control of Aerothermoelastic Effects for a Conceptual Hypersonic Aircraft by :

Download or read book Active Control of Aerothermoelastic Effects for a Conceptual Hypersonic Aircraft written by . This book was released on 1990. Available in PDF, EPUB and Kindle. Book excerpt:

Modeling, Analysis, and Control of a Hypersonic Vehicle with Significant Aero-thermo-elastic-propulsion Interactions

2011 Airbreathing launch vehicles
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Release : 2011
Genre : Airbreathing launch vehicles
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Book Synopsis Modeling, Analysis, and Control of a Hypersonic Vehicle with Significant Aero-thermo-elastic-propulsion Interactions by : Jaidev Khatri

Download or read book Modeling, Analysis, and Control of a Hypersonic Vehicle with Significant Aero-thermo-elastic-propulsion Interactions written by Jaidev Khatri. This book was released on 2011. Available in PDF, EPUB and Kindle. Book excerpt: 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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