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Faculté des Sciences appliquées
Faculté des Sciences appliquées
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Master thesis and internship[BR]- Master's thesis : Reconstruction of Electrospray Emitted Current using Computed Tomography[BR]- Internship

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Kazadi, Justine ULiège
Promoteur(s) : Hillewaert, Koen ULiège
Date de soutenance : 5-sep-2024/6-sep-2024 • URL permanente : http://hdl.handle.net/2268.2/20852
Détails
Titre : Master thesis and internship[BR]- Master's thesis : Reconstruction of Electrospray Emitted Current using Computed Tomography[BR]- Internship
Titre traduit : [fr] Reconstruction du courant émis par électrospray à l'aide de la tomodensitométrie
Auteur : Kazadi, Justine ULiège
Date de soutenance  : 5-sep-2024/6-sep-2024
Promoteur(s) : Hillewaert, Koen ULiège
Membre(s) du jury : Villegas Prados, David 
Langue : Anglais
Nombre de pages : 64
Mots-clés : [en] Propulsion
[en] Electrospray
[en] Satellites
[en] Computed Tomography
[en] Current Emission
[en] Radon Transform
Discipline(s) : Ingénierie, informatique & technologie > Ingénierie aérospatiale
Public cible : Chercheurs
Professionnels du domaine
Etudiants
Institution(s) : Université de Liège, Liège, Belgique
Diplôme : Master en ingénieur civil en aérospatiale, à finalité spécialisée en "aerospace engineering"
Faculté : Mémoires de la Faculté des Sciences appliquées

Résumé

[en] This work aims to reconstruct the current emitted by an electrospray thruster using com-
puted tomography, a technique that enables detailed, cross-sectional imaging of the emission
pattern. Electrospray thrusters, known for their efficiency in space propulsion, require precise
characterization of their emission profiles to optimize performance.
An experimental setup was developed featuring ATHENA, an electrospray thruster de-
signed at ienai SPACE, along with a tomography assembly that includes a wire collector and
two motion stages: linear and rotary. This configuration allows for precise scanning of the
thruster’s emission profile.
To facilitate the reconstruction process, MATLAB codes were developed to simulate
the emission patterns under various conditions. These simulations played a crucial role in
visualizing expected outcomes and optimizing experimental parameters, such as the distance
between the wire and the thruster, as well as the number of steps required for accurate data
collection. Data was generated across voltage levels ranging from 700 V to 1300 V, which
was used to create graphical representations of current intensity as a function of the stages’
positions, known as sinograms. These sinograms were then processed using the inverse Radon
transform to reconstruct the emission pattern as an image.
The resulting images aligned with the simulation predictions, and revealed non-uniform
emission across the thruster. This non-uniformity, although expected due to manufacturing
tolerances, provides valuable insights into the thruster’s performance characteristics. The
detailed analysis of these images suggests that certain regions of the thruster may require
design modifications to improve emission uniformity.


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Auteur

  • Kazadi, Justine ULiège Université de Liège > Master ing. civ. aéro., fin. spéc. aer. eng.

Promoteur(s)

Membre(s) du jury

  • Villegas Prados, David IENAI space
  • Nombre total de vues 21
  • Nombre total de téléchargements 31










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