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Rolling moment response of a wing-body to stagnation point actuationDarden, Leigh-Ann 12 1900 (has links)
No description available.
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The longitudinal dynamics of a rigid aircraft including unsteady aerodynamic effectsChen, Ta Kang January 1977 (has links)
The main object of this thesis is to give a introductory study of the longitudinal motion of an aircraft, including some effects of nonuniform motion. Because this subject is connected with practical problems of importance in the domain of applied aerodynamics and control, a great effort has been given to setting up the physics of unsteady aerodynamics and its effects on the aircraft longitudinal modes. Numerical examples are given for both the two-dimensional and three-dimensional rigid wing, subsonic case. In this research, from the unsteady aerodynamic theory, through the frequency response calculation, system identification and the augmentation of the aircraft dynamic system, a carefully derived theory and a computer algorithm have been presented and used.
It is our main purpose that a suitable unsteady aerodynamic transfer function be obtained and be coupled to the aircraft quasi-steady dynamic system. A new modified model which includes the unsteady aerodynamic effects has been constructed and been compared with the conventional model and the differences between them have been discussed. / Master of Science
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Design Demonstration and Optimization of a Morphing Aircraft Control Surface Using Flexible Matrix Composite ActuatorsDoepke, Edward Brady 13 March 2018 (has links)
The morphing of aircraft wings for flight control started as a necessity for the Wright Brothers but quickly fell out of favor as aircraft increased speed. Currently morphing aircraft control is one of many ideas being explored as we seek to improve aircraft efficiency, reduce noise, and other alternative aircraft solutions. The conventional hinged control surface took over as the predominant method for control due to its simplicity and allowing stiffer wings to be built. With modern technologies in variable stiffness materials, actuators, and design methods, a morphing control surface, which considers deforming a significant portion of the wing's surface continuously, can be considered.
While many have considered morphing designs on the scale of small and medium size UAVs, few look at it for full-size commercial transport aircraft. One promising technology in this field is the flexible matrix composite (FMC) actuator. This muscle-like actuator can be embedded with the deformable structure and unlike many other actuators continue to actuate with the morphing of the structure. This was demonstrated in the FMC active spoiler prototype, which was a full-scale benchtop prototype, demonstrated to perform under closed-loop control for both the required deflection and load cases.
Based on this FMC active spoiler concept a morphing aileron design was examined. To do this an analysis coupling the structure, fluid, and FMC actuator models was created. This allows for optimization of the design with the objectives of minimizing the hydraulic energy required and mass of the system by varying the layout of the FMC aileron, the material properties used, and the actuator's design and placement with the morphing section.
Based on a commercial transport aircraft a design case was developed to investigate the optimal design of a morphing aileron using the developed analysis tool. The optimization looked at minimizing the mass and energy requirements of the morphing aileron and was subject to a series of constraints developed from the design case and the physical limitations of the system. A Pareto front was developed for these two objectives and the resulting designs along the Pareto front explored. From this optimization, a series of design guidelines were developed. / Ph. D. / This work looks at an aircraft morphing control surface design on the scale of commercial transport aircraft. A design is developed and demonstrated through bench top prototype testing and through analysis. The morphing control surface uses flexible matrix composite (FMC) actuators. These unique actuators are muscle like, using hydraulic pressure to create a contractive actuator. Unlike a simple hydraulic piston, the FMC actuators are capable of bending with the morphing structure during actuation. Through optimization of the morphing control surface design a set of design guidelines were developed to guide future design.
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Control surfaces in confined spaces : the optimisation of trailing edge tabs to reduce control surface hinge momentsJaquet, Christopher Denis 03 1900 (has links)
Thesis (MScEng (Electrical and Electronic Engineering))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: This thesis describes the first project relating to the Control Surfaces in Confined Spaces (CoSICS) project
at Stellenbosch University. The aim of CoSICS project is to reduce the size of control surface actuators,
and this thesis considers the aileron system of commercial aircraft such as the Airbus A320 and A330.
Specifically the project aims to reduce the aileron hinge moment, as this will result in smaller actuators.
Possible methods are discussed where aerodynamic forces are used to reduce the aileron hinge moment
through the use of a wing-aileron-tab configuration. In order to examine the use of the configuration,
first order aerodynamic modelling is performed using two-dimensional thin-aerofoil theory, which is also
extended to a basic three-dimensional approximation.
To determine the maximum reduction in hinge moment several optimisations are performed where only
the tab chord length is varied, both tab and aileron chord lengths are varied, and finally the tab chord
length and aileron span are varied. The optimisation methods used, namely the gradient-based sequential
quadratic programming (SQP) and a real-encoded genetic algorithm (REGA) are discussed in detail and
include general implementations which are then applied to the problem. The optimisations performed are
dual-layered where optimal deflection angles are determined as well as the optimal geometry.
The results of the optimisation are tested using a roll manoeuvre in a specially developed Simulink simulation
environment for this purpose.
The study produces results where new hinge moment values are an order of magnitude smaller than those
of the old configuration, while maintaining suitable lift and rolling moment coefficients. The optimisation
and simulation infrastructure developed in this thesis provides a platform for higher-fidelity models and
components being developed in future work to provide higher fidelity results. / AFRIKAANSE OPSOMMING: Hierdie tesis beskryf die eerste projek in die Control Surfaces in Confined Spaces-projek1 (CoSICS-projek)
uitgevoer by die Universiteit Stellenbosch. Die doel van die COSICs-projek is om die grootte van beheervlak
aktueerders te minimeer en hierdie tesis handel oor die aileron stelsel van kommersiële vliegtuie
soos die Airbus A320 en A330. Die doel van hierdie tesisis om die skarnier draaimoment van die aileron
te minimeer deur aërodinamiese kragte in te span in ’n vlerk-aileron-hulpvlak konfigurasie. Eerste-orde
aërodinamiese modelle is afgelei met behulp van twee-dimensionele dunvlerkteorie en is gebruik om die
konfigurasie te analiseer. ’n Eerste orde drie-dimensionele benadering is ook ontwikkel.
Om die maksimum vermindering in die skarnier draaimoment te bepaal, is verskeie optimerings uitgevoer
waar eers die hulpvlak se koordlengte gevarieer word, daarna beide die aileron en hulp-vlak se
koordlengtes en laastens die hulp-vlak se koordlengte en wydte. Die twee optimerings metodes wat gebruik
is, nl. ’n sekwensiële kwadratiese programmerings (SKP) tegniek, en ’n reële getal-geënkodeerde
genetiese algoritme (RGGA), word bespreek en ontwikkel voor hulle toegepas word op die probleem.
Twee-vlak optimerings word uitgevoer waar beide die optimale defleksiehoeke en die optimale geometrie
bepaal word.
Die resultate van die optimering word daarna getoets deur middel van ’n rol maneuver wat uitgevoer word
in ’n Simulink simulasie omgewing wat daarvoor geskep is.
Hierdie studie lei tot goeie resultate met skarnier draaimoment waardes ’n ordegrootte kleiner as dié van
die vorige stelsel, terwyl goeie waardes van rol-moment en verheffingskrag koëffisiënte behou word. Die
optimering en simulasie infrastruktuur wat hier ontwikkel word verskaf ’n platform vir meer akkurate
modelle en komponente wat ontwikkel word in toekomstige projekte om meer akkurate resultate te lewer.
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A task-oriented side force flight control system for the A-10 aircraftKnotts, Louis Howard January 1981 (has links)
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 1981. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND AERO / Bibliography: p. 131-132. / by Louis Howard Knotts. / M.S.
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Comparison of distributed suction and vortex generator flow control for a transonic diffuserOorebeek, Joseph Mark January 2014 (has links)
No description available.
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Modelling and testing smart aileron servo tabs : developing simulation tools for smart materialsMsomi, Velaphi January 2015 (has links)
Thesis (DTech (Mechanical Engineering))--Cape Peninsula University of Technology, 2015. / This dissertation addresses the development and the testing of a simulation tool to be used to predict the behaviour of smart material/structures. Along with the development of the simulation tool, a new form of the model describing the behaviour of shape-memory alloy was developed and implemented. The proposed model was developed based on the existing cosine model, conventionally used in literature, but it uses hyperbolic tangent functions. The hyperbolic tangent function was chosen so as to allow the simulation of any range of temperatures. Experiments were performed to obtain the parameters to be used in the simulation and to validate the numerical results. Two different simulations were performed: a one dimensional FEA analysis with a two dimensional orientation (NiTi SMA wire simulation) and a three dimensional FEA analysis (NiTi SMA plate) [Msomi and Oliver, 2015]. Alongside the FEA analysis, two experiments were performed with the purpose of obtaining the material parameters to be used in FEA analysis and to compare the FEA results to the experimental results. / Airbus Company
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Integrated multi-disciplinary design of a sailplane wingStrauch, Gregory J. 14 November 2012 (has links)
The objective of this research is to investigate the techniques and payoffs of integrated aircraft design. Lifting line theory and beam theory are used for the analysis of the aerodynamics and the structures of a composite sailplane wing. The wing is described by 33 - 34 design variables which involve the planform geometry, the twist distribution, and thicknesses of the spar caps, spar webs, and the skin at various stations along the wing. The wing design must satisfy 30 â 31 aeroelastic, structural, aerodynamic, and performance constraints.
Two design procedures are investigated. The first, referred to as the iterative, sequential procedure, involves optimizing the aerodynamic design for maximum average cross-country speed at E1 constant structural weight, and then optimizing the the structural design of the resulting wing geometry for minimum weight. This value is then used in another aerodynamic optimization, and the process continues iteratively until the weight converges. The other procedure, the integrated one, simultaneously optimizes the aerodynamic and the structural design variables for either maximum average cross-country speed or minimum weight.
The integrated procedure was able to improve the value of the objective function obtained by the iterative procedure in all cases. This shows The objective of this research is to investigate the techniques and payoffs of integrated aircraft design. Lifting line theory and beam theory are used for the analysis of the aerodynamics and the structures of a composite sailplane wing. The wing is described by 33 - 34 design variables which involve the planform geometry, the twist distribution, and thicknesses of the spar caps, spar webs, and the skin at various stations along the wing. The wing design must satisfy 30 â 31 aeroelastic, structural, aerodynamic, and performance constraints. Two design procedures are investigated. The first, referred to as the iterative, sequential procedure, involves optimizing the aerodynamic design for maximum average cross-country speed at E1 constant structural weight, and then optimizing the the structural design of the resulting wing geometry for minimum weight. This value is then used in another aerodynamic optimization, and the process continues iteratively until the weight converges. The other procedure, the integrated one, simultaneously optimizes the aerodynamic and the structural design variables for either maximum average cross-country speed or minimum weight.
The integrated procedure was able to improve the value of the objective function obtained by the iterative procedure in all cases. This shows that definite benefits can be gained from taking advantage of aerodynamic/structural interactions during the design process. / Master of Science
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Macro Fiber Composite Actuated Control Surfaces with Applications Toward Ducted Fan VehiclesStiltner, Brandon Chase 08 September 2011 (has links)
In most man-made flight, vehicle control is achieved by deflecting flaps. However, in nature, morphing surfaces are found on both flying and swimming creatures. Morphing is used in nature because it is a more efficient form of control. This thesis investigates using morphing flaps to control a class of UAVs known as ducted fan vehicles. Specifically, this thesis discusses both the challenges and benefits of using morphing control surfaces.
To achieve morphing, a piezoelectric device known as Macro Fiber Composites is used. These devices are embedded in the skin of the vehicles control surface, and when actuated, they cause the control surface to increase or decrease camber. This thesis describes experiments that were performed to investigate the performance of this type of actuator. Specifically, the actuation bandwidth of these devices is presented and compared to a servo. Results show that the morphing control surfaces can actuate at frequencies twice as high as a servo. / Master of Science
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Feedback control of a shape memory alloy actuator for control surface deflectionEhlers, Righardt Frederick 03 1900 (has links)
Thesis (MScEng)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: The successful design, implementation and testing of a feedback control system for
tab-deflection control of a shape memory alloy (SMA) based control surface actuator
is presented. The research is performed as part of the Control Surfaces in Confined
Spaces (CoSICS) research project conducted at Stellenbosch University. The research
group investigates ways to provide control surface actuation in size-restricted spaces
in commercial aircraft such as the Airbus A320 and A330. This is achieved by investigating
the concept of trailing edge tabs to reduce the required torque load, resulting
in reduced actuator requirements enabling the use of smaller actuators. This thesis
contributes to the project by investigating the possibility of using SMA-based actuators
in reduced hinge moment requirement applications.
An SMA-based tab actuator demonstrator design is presented. Mathematical models
are derived for the SMA material, thermodynamics and actuator geometry. The models
are combined to formulate an SMA-based control surface actuator model. The model is
utilised in four tracking feedback controller designs; two based on linear and two based
on non-linear control techniques.
The manufactured prototype is presented along with the incorporated hardware for
controller implementation. System identification follows and validates the three mathematical
models.
Practical verification of the model and two of the controllers is conducted. The unimplemented
controllers are implemented through a validated model simulation. Controller
evaluation, based on the dynamic controller performance, is conducted. The results
validate the concept of using an SMA actuator for tab-deflection control and indicate
important limitations for the intended application. / AFRIKAANSE OPSOMMING: Die tesis behels die ontwerp, implementering en toetsing van ’n terugvoer beheerstelsel
vir hulpvlak defleksie beheer van ’n vorm-geheue allooi (SMA) gebaseerde aktueerder.
Die navorsing vorm deel van die Beheervlakke in Begrensde Ruimtes (CoSICS) navorsingsprojek
by Stellenbosch Universiteit. Die CoSICS navorsing behels ’n ondersoek na
beheervlak aktueering in beknopte spasies in kommersiële vliegtuie soos die Airbus
A320 en A330. Die probleem word aangespreek deur ’n ondersoek na aerodinamiese
hulpvlakke wat ’n vermindering in skarnier moment tot gevolg het en sodoende die
aktueerder vereistes verminder.
Hierdie tesis dra by tot die projek deur die moontlikheid van die gebruik van SMAgebaseerde
aktueerders in verminderde skarnier moment vereiste toepassings te ondersoek.
‘n SMA gebaseerde hulpvlak demonstrasie aktueerder ontwerp word voorgelê. Wiskundige
modelle vir die SMA materiaal, termodinamika en prototipe geometrie is geformuleer
en gekombineer om ‘n SMA gebaseerde beheervlak aktueerder model te ontwikkel.
Die model word in vier beheerder ontwerpe toegepas. Twee ontwerpe is op
liniëre en twee op nie-liniëre beheer tegnieke gebaseer.
Die prototipe en nodige hardeware vir beheerder implementasie is voorgedra. Stelsel
identifikasie is toegepas en verifieer die drie wiskundige modelle.
Praktiese verifikasie van die model en twee beheerders is gedoen. Die ongeïmplementeerde
beheerders is deur die geverifieerde aktueerder model gesimuleer. ‘n Beheerder
evaluasie gebaseer op die dinamiese beheerder gedrag word toegepas. Die
evaluasie beklemtoon kritiese aspekte en beperkinge in verband met SMA aktueering.
Die resultate regverdig die gebruik van ‘n SMA aktueerder vir hulpvlak defleksie beheer
en beklemtoon belangrike beperkinge ten opsigte van die voorgestelde toepassing.
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