Flight dynamics and simulation of a generic aircraft for aeroservoelastic design Pedro Tomás Marques Martins Margarido Thesis to obtain the Master of Science Degree in Aerospace Engineering Supervisor: Prof. André Calado Marta Examination Committee Chairperson: Prof. João Manuel Lage de Miranda Lemos Supervisor: Prof. André Calado Marta Member of the Committee: Prof. Agostinho Rui Alves da Fonseca November 2016 ii ”Thedawnmistglowing, Thewaterflowing, Theendlessriver, Foreverandever” DavidGilmour iii iv Acknowledgments The process of writing a dissertation is exhaustive and arduous - and it is certainly not done single- handedly. Iwanttothankmysupervisor,ProfessorAndre´ CaladoMarta. ThankyouProfessor,forallyourhelp, support and specially enthusiasm. I believe that I am tremendously fortunate to have worked with an outstandingscholarandexcellentperson. I would like to thank my parents, Maria and Fernando that helped me become everyday a better versionofmyself,andtotheirsacrificeanddedicationovermylife,Idedicatethemmybiggestachieve- ment,theMaster’s. Astheoldestbrother,Iamalsodeeplythankfultomybrothers,LuisandIneˆs,whose presenceenlightenedmeandmadememoreresponsiblethroughoutalltheseyears. I am deeply grateful to my maternal grandparents, Angela and Joa˜o, who cared for me and played animportantroleinthedevelopmentofmyidentityandshapingtheindividualthatIamtoday. Iwasalso extremelyfortunateinmylifetohavepaternalgrandparentswhohaveshownmeunconditionalloveand kindnessthroughtheirlife,andIamsorrythattheyarenotpresenttoseemegraduate. ImustthankmygirlfriendSara,whogavemestrengthinthedayswhenIwasnotinmoodofwriting or researching. Through her and her smile I found an easier path for concluding my Master’s, and for thatIamentirelygrateful. Finally, I want to thank all the friends I made throughout this five year journey. Their help and pres- enceinspiredmetoreachthisgoalandwithoutthemitwouldhavebeencertainlybeentougher. v vi Resumo Com o mercado emergente do sector aerona´utico, comec¸a a aparecer a necessidade de ferramentas que estudem o comportamento aeroservoelastico de uma aeronave. Existem modelos matema´ticos paraesteestudo,pore´msa˜ocomplicadosemuitosdelesusamodom´ıniodafrequeˆncia. Nesta dissertac¸a˜o foram desenvolvidas as equac¸o˜es de movimento aeroservoelasticas de uma aeronavegeralparacondic¸o˜esdeequil´ıbrionodom´ıniodotempo. Foidesenvolvidoumprogramapro- duzidoemC++queintegraestasmesmasequac¸o˜es,equenofuturopodera´ serinclu´ıdonoutrosprojec- tos como uma pec¸a de conexa˜o entre diversas a´reas da aerona´utica, como aerodinaˆmica, dinaˆmicas estruturais e controlo de voo. Para desenvolver esta ferramenta va´rios me´todos de integrac¸a˜o foram inspecionadoseconsequentementeencontrandoautilidadedecadaum. Consequeˆnciasdaaeroelas- ticidadeforamtambe´mdiscutidaseutilizadasparaintroduzirocontroloo´ptimo. Foi tambe´m realizado um simulador de voo em MATLAB(cid:13)R utilizando controlo o´ptimo. O compor- tamento do controlo o´ptimo, mais consequentemente o regulador quadra´tico linear, nas dinaˆmicas de voofoitambe´mestudado. Estesimuladordevoopermitesimularomovimentodeumaaeronavegeral, adoptandoumconjuntodederivadasaerodinaˆmicasdeaeronavesnaliteratura,emregimesturbulentos e em casos de falha de motor em aeronaves com ate´ cinco motores. O estudo das simulac¸o˜es feito nestadissertac¸a˜otevemaisemcontaqueaaeronaveconsigagarantirequil´ıbrioerumoemsituac¸o˜es cr´ıticas,comoasacimareferidas. Palavras-chave: dinaˆmica de voo, controlo o´ptimo, aeroservoelasticidade, simulac¸a˜o de voo,integrac¸a˜o vii viii Abstract Theemergingmarketoftheaviationsectorbeginstorequesttheneedfortoolstostudytheaeroservoe- lasticbehaviourofanaircraft. Therearemathematicalmodelsforthiskindofstudy,butitsinterpretation isnoteasyandmanyusethefrequencydomain. Inthisthesistheaeroservoelasticequationsofmotionofageneralaircraftforequilibriumconditions in time domain were developed. A program was also developed, produced in C++(cid:13)R, which integrates thesesameequations,andthatinthefuturemaybeincludedinotherprojectsasaninterconnectiontool betweendifferentfieldsofaeronautics,suchasaerodynamics,structuraldynamicsandflightcontrol. To develop this tool, various integration methods were inspected and consequently the utility of each one wasfound. Aeroelasticityconsequenceswerealsodiscussedandusedtointroducetheoptimalcontrol. It was also carried out a flight simulator in MATLAB(cid:13)R using optimal control. The optimal control behaviour,morespecificallythelinearquadraticregulator,intheflightdynamicswasalsostudied. This flightsimulatorallowsthesimulationofthemotionforageneralaircraft,adoptingasetofaerodynamics derivatives of general aircraft from the literature, on turbulent air flows and in engine failure cases in aircraftuptofiveengines. Thesimulationstudyinthisthesishadmoreinmindtoensurethattheaircraft maintainsitsequilibriumandcourseincriticalsituations,asreferredabove. Keywords: flightdynamics,optimalcontrol,aeroservoelasticity,flightsimulation,integration ix x
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