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Identification

Personal identification

Full name
Miguel André Barbosa Moreira

Citation names

  • Moreira, Miguel

Author identifiers

Ciência ID
9E12-76D3-79C4

Email addresses

  • miguel.andre.moreira@ubi.pt (Professional)

Languages

Language Speaking Reading Writing Listening Peer-review
Portuguese (Mother tongue)
English Advanced (C1) Advanced (C1) Advanced (C1) Advanced (C1) Advanced (C1)
Spanish; Castilian Upper intermediate (B2) Upper intermediate (B2) Upper intermediate (B2) Upper intermediate (B2) Upper intermediate (B2)
Education
Degree Classification
2019/09 - 2022/12
Concluded
 Engenharia Electromecânica (Mestrado)
Universidade da Beira Interior, Portugal
""Estudo sobre actuadores a plasma usando a técnica Schlieren orientado para o fundo (BOS)"" (THESIS/DISSERTATION)
 14
2014/09 - 2019/08
Concluded
 Engenharia Electromecânica (Licenciatura)
Universidade da Beira Interior, Portugal
 12
Affiliation

Science

Category
Host institution 		Employer
2023/05/29 - Current Researcher (Research) Universidade da Beira Interior Centro da Ciências e Tecnologias Mecânicas e Aeroespaciais, Portugal
Projects

Contract

Designation Funders
2023/05/29 - Current GreenAuto: Green innovation for the Automotive Industry
NOTICE N.º 02/C05-i01/2022
Researcher
Universidade da Beira Interior Centro da Ciências e Tecnologias Mecânicas e Aeroespaciais, Portugal
Ongoing
Outputs

Publications

Conference abstract
  1. Rodrigues, Frederico; Moreira, Miguel; Pascoa, Jose. "Thermal characterization of plasma-induced flow by using a background oriented schlieren technique". Paper presented in ASME-JSME-KSME Joint Fluids Engineering Conference 2023, Osaka, 2023.
    Accepted
Conference paper
  1. Nunes, Gustavo; Moreira, Miguel; Rodrigues, Frederico; Pascoa, Jose. "Experimental Analysis of Electrohydrodynamic Atomization of Different Fluids". Paper presented in FEDSM2025, 2025.
    Submitted
  2. Moreira, Miguel; Nunes, Gustavo; Rodrigues, Frederico; Pascoa, Jose. "Electrospray Optimization Using Dielectric Barrier Discharge Plasma Actuators Through a Conical Nozzle". 2025.
    Submitted
  3. Moreira, Miguel; Rodrigues, Frederico; Páscoa, José. "Developments in Taylor Cone Formation: Operation and Testing of Different Liquids". 2024.
    10.1115/fedsm2024-130431
  4. Moreira, Miguel; Pascoa, Jose; Rodrigues, Frederico; Cândido, Sílvio. "Development and validation of a background oriented Schlieren (BOS) system for air density and temperature quantification". Paper presented in International Congress on Engineering 2022, 2022.
  5. F. F. Rodrigues; Moreira, Miguel; Jose Pascoa. "Analysis and Implementation of Dielectric Barrier Discharge Plasma Actuators for Ground Vehicles Wake Reduction". Paper presented in Fluids Engineering Division Summer Meeting 2021, 2021.
    10.1115/fedsm2021-65735
  6. Moreira, Miguel; F. F. Rodrigues; Jose Pascoa Marques. "Experimental Study of Dielectric Barrier Discharge Plasma Actuators for Active Flow Control". Paper presented in International Congress on Engineering 2019, Covilhã, 2019.
    Published • 10.18502/keg.v5i6.7064
Conference poster
  1. 0009-0007-5359-3574. "Investigation in Taylor Cone Formation". Paper presented in Encontro UBI Ciência e Inovação - Semana da CeT 2023, 2023.
Journal article
  1. Nunes, Gustavo; Moreira, Miguel; Rodrigues, Frederico; Páscoa, José. "Experimental Analysis of Electrohydrodynamic Jet Actuation Modes Based on the Phase Doppler Technique". Actuators 14 3 (2025): 141. https://doi.org/10.3390/act14030141.
    10.3390/act14030141
  2. Moreira, M.; Rodrigues, F.; Páscoa, J.. "An experimental study on the use of dielectric barrier discharge plasma actuators for electrospray dynamics enhancement". Physics of Fluids 37 2 (2025): https://doi.org/10.1063/5.0248754.
    10.1063/5.0248754
  3. Moreira, Miguel; Nunes, Gustavo; Rodrigues, Frederico; Pascoa, Jose. "Optimization of electrospray performance using dielectric barrier discharge plasma actuators: An experimental study on different operation modes". (2025):
    Submitted
  4. Rodrigues, Frederico; Moreira, Miguel; Páscoa, José. "Characterization of Plasma-Induced Flow Thermal Effects for Wind Turbine Icing Mitigation". Energies 17 16 (2024): 3974. https://doi.org/10.3390/en17163974.
    10.3390/en17163974
  5. Moreira, Miguel; Frederico Rodrigues; Sílvio Cândido; Guilherme Santos; José Páscoa. "Development of a Background-Oriented Schlieren (BOS) System for Thermal Characterization of Flow Induced by Plasma Actuators". Energies; Volume 16; Issue 1; Pages: 540 (2023):
    Open access • 10.3390/en16010540
Activities

Oral presentation

Presentation title Event name
Host (Event location)
2024 Optimization of electrospray performance using dielectric barrier discharge plasma actuators An experimental study on different operation modes
2022/11 Development and validation of a background oriented Schlieren (BOS) system for air density and temperature quantification International Congress on Engineering 2022
(Covilhã, Portugal)
2019/11 Experimental Study of Dielectric Barrier Discharge Plasma Actuators for Active Flow Control International Congress on Engineering 2019
(Covilhã, Portugal)