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Structural requirements and launcher validation process for MECSE CubeSat

2018-11-21DissertaĆ§Ć£o de mestrado Acesso aberto
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datacite.subject.fosEngenharia e Tecnologia::Engenharia AeronƔuticapor
dc.contributor.advisorGamboa, Pedro Vieira
dc.contributor.advisorFigueiredo, Paulo de Vasconcelos
dc.contributor.authorCoelho, Rafael JosƩ
dc.date.accessioned2020-01-22T15:13:06Z
dc.date.available2021-10-04T00:30:09Z
dc.date.issued2018-11-21
dc.date.submitted2018-10-4
dc.description.abstractMECSE is the first CubeSat being developed at UBI - University da Beira Interior, and it is an under development nanosatellite, resulting from the collaboration between C-MAST - Center for Mechanical and Aerospace Science and Technologies and CEiiA - Centre of Engineering and Product Development. MECSEā€™s mission, aside from the education aims to provide hands-on experience to universitary students in space projects, it intends to demonstrate that is possible the manipulation of plasma layer using an electromagnetic field that will mitigate the RF - Radio Frequency blackout, which occurs when a space vehicle re-enter in the Earthā€™s Atmosphere. In this dissertation, an overview of the requirements for a structural configuration, design, dimensioning, verification and validation are presented, using several references. Nevertheless, the ECSS - European Cooperation for Space Standardization documents was where the most of the information was consulted, in order to identify and present the requirements from a systems engineering and structural perspective. Therefore, it was initially identified the main structural requirements, such as the mechanical environment, the interconnection between CubeSat and launcher, and the minimum natural frequency required for the satellite structure. Followed by the main structural requirements are the conditions under which the verifications and validations must be performed in a satellite structure. This led to the definition of the verification methods and to the organization, planning and methodology of the verification processes, which are normally used for a CubeSat validation. Knowing that the validation is only granted if the verifications and validation conditions are followed, applied and accomplished in the numerical and experimental verifications, such as for RODā€™s - Reviews of Design and inspections. In a final phase of this work, a set of launchers was analysed with the objective of identifying a suitable proposal for MECSE project. The launchers Bloostar, Electron, LauncherOne and Vector-R were the launchers with better performance for the analysed parameters. The analysis of the various launchers was also carried out in order to recognize the most demanding mechanical environment among the cases taken into account, so that MECSE project could be designed and analysed according to the worst case scenario, while the final launcher is not selected. In this same phase a proposal is made for a possible approach to the verification process, with the main focus on the numerical models to be developed, on the experimental test methodology which was defined by a hybrid approach with a structural model, an engineering qualification model and a protoflight model, as well as identified the levels and duration of the tests and analyses to be performed in these same numerical and experimental models.
dc.description.abstractMECSE Ć© o primeiro CubeSat desenvolvido na UBI - Universidade da Beira Interior e Ć© um nanosatĆ©lite em desenvolvimento resultante de uma parceria entre o C-MAST - Center for Mechanical and Aerospace Science and Technologies e o CEiiA - Centre of Engineering and Product Development. O objectivo do MECSE, alĆ©m de ser educacional e de providenciar experiĆŖncia prĆ”tica a alunos universitĆ”rios em projetos espaciais, tem como missĆ£o demonstrar que Ć© possĆ­vel manipular a camada de plasma, usando um campo electromagnĆ©tico que irĆ” permitir a mitigaĆ§Ć£o da perda de sinal de rĆ”dio frequĆŖncia que ocorre quando um veĆ­culo espacial reentra na atmosfera terrestre. Nesta dissertaĆ§Ć£o, uma visĆ£o geral dos requisitos para a configuraĆ§Ć£o, design, dimensionamento, verificaĆ§Ć£o e validaĆ§Ć£o sĆ£o apresentados usando diversas referĆŖncias, sendo dos documentos da ECSS - European Cooperation for Space Standardization que a maior parte da informaĆ§Ć£o foi consultada, de forma a identificar e apresentar os requisitos de uma perspetiva da engenharia de sistemas e estrutural. Posto isto, foi inicialmente identificado os principais requisitos estruturais, tais como o ambiente mecĆ¢nico, a interconexĆ£o entre CubeSat e lanƧador e a frequĆŖncia natural mĆ­nima exigida Ć  estrutura do satĆ©lite. De seguida foram assinaladas as condiƧƵes pelas quais as verificaƧƵes e validaƧƵes se devem realizar numa estrutura espacial. Tendo as condiƧƵes de verificaĆ§Ć£o e validaĆ§Ć£o levado Ć  definiĆ§Ć£o dos mĆ©todos de verificaĆ§Ć£o e Ć  organizaĆ§Ć£o, planeamento e metodologia dos processos de verificaĆ§Ć£o que normalmente sĆ£o aplicados num CubeSat para a sua validaĆ§Ć£o. Sabendo que a validaĆ§Ć£o sĆ³ Ć© obtida se forem seguidas as condiƧƵes definidas para a realizaĆ§Ć£o das verificaƧƵes numĆ©ricas e experimentais, tal como das RODā€™s - Reviws of Design e das inspeƧƵes a proceder. Numa fase final deste trabalho, foi analisado um conjunto de lanƧadores com o objetivo de identificar uma proposta adequada para o projeto MECSE, tendo sido os lanƧadores Bloostar, Electron, LauncherOne e o Vector-R com melhor desempenho para os parĆ¢metros analisados. A anĆ”lise dos vĆ”rios lanƧadores foi realizada tambĆ©m com o intuito de reconhecer qual o ambiente mecĆ¢nico mais exigente de entre os casos tidos em conta, de forma a que o projeto MECSE possa ser desenhado e analisado segundo esse mesmo caso, enquanto o lanƧador final nĆ£o Ć© selecionado. TambĆ©m nesta fase Ć© realizada uma proposta para uma possĆ­vel abordagem ao processo de verificaĆ§Ć£o, com o principal foco para os modelos numĆ©ricos a desenvolver, para a metodologia de testes experimentais, foi definida uma abordagem hĆ­brida com o intuito de ser construido um modelo estrutural, um modelo de qualificaĆ§Ć£o de engenharia e um modelo protoflight, tal como Ć© definido os nĆ­veis e duraĆ§Ć£o dos testes a realizar nesses mesmos modelos numĆ©ricos e experimentais.
dc.identifier.tid202361764
dc.identifier.urihttp://hdl.handle.net/10400.6/8587
dc.language.isoengpor
dc.subjectCubesatpor
dc.subjectEcsspor
dc.subjectExperimental Verificationpor
dc.subjectLaunch Vehicles.por
dc.subjectMechanical Environmentpor
dc.subjectMecsepor
dc.subjectNanosatellitepor
dc.subjectNumerical Verificationpor
dc.subjectStructural Requirementspor
dc.subjectStructural Verificationpor
dc.titleStructural requirements and launcher validation process for MECSE CubeSatpor
dc.typemaster thesis
dspace.entity.typePublication
rcaap.embargofctContƩm dados temporariamente confidenciaispor
rcaap.rightsopenAccesspt_PT
rcaap.typemasterThesispor
thesis.degree.nameMestrado Integrado em Engenharia AeronƔuticapor

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