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Faculté des Sciences appliquées
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Master thesis and internship[BR]- Master's thesis : Numerical investigation of a variable tandem outlet guide vane in a low pressure compressor cascade[BR]- Internship

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Brach, Mathias ULiège
Promoteur(s) : Hillewaert, Koen ULiège
Date de soutenance : 24-jui-2024/25-jui-2024 • URL permanente : http://hdl.handle.net/2268.2/20423
Détails
Titre : Master thesis and internship[BR]- Master's thesis : Numerical investigation of a variable tandem outlet guide vane in a low pressure compressor cascade[BR]- Internship
Titre traduit : [fr] Étude numérique d'une aube directrice de sortie en tandem variable dans une cascade de compresseur à basse pression
Auteur : Brach, Mathias ULiège
Date de soutenance  : 24-jui-2024/25-jui-2024
Promoteur(s) : Hillewaert, Koen ULiège
Membre(s) du jury : Terrapon, Vincent ULiège
Rocca, Andrea 
Princivalle, Remy 
Langue : Anglais
Nombre de pages : 95
Mots-clés : [en] Low pressure compressor
[en] Outlet Guide Vane
[en] Rans
[en] Tandem blades
[en] Variable stator vanes
Discipline(s) : Ingénierie, informatique & technologie > Ingénierie aérospatiale
Centre(s) de recherche : Cenaero
Intitulé du projet de recherche : WINGS
Public cible : Chercheurs
Professionnels du domaine
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] With a view to improving the performance of axial compressors, the present work
investigates the possibilities of adapting the last compressor stage (OGV) to varying
compressor operating conditions. In particular, when the inlet flow angle is modified
to off-design values, this work proposes solutions that extend the range of incidence
operations of the compressor stage. The strategy for boosting performance is to
combine a technology already used for OGVs, tandem blades, with the principle of
variable stator valves. Numerical simulations using a RANS model with SU2 software
were first carried out on the unmodified tandem configuration around a reference flow
angle of 50°, considered to be the design angle of the compressor, in order to show the
influence of the flow angle on the overall performance of the tandem. It was shown
that the nominal tandem configuration is highly dependent on the inlet angle, and
that flow separation phenomena on either blade (sometimes both) introduce high
losses that limit the OGV’s compression capacities. In addition, flow turning was
not ideal with this configuration. Indeed, the flow left the stage with a tangential
component, whereas it is crucial to have an almost exclusively axial flow velocity.
Because of these factors, the incidence range of this nominal configuration was 14.7°.
Following this, further simulations showed very good compressor stage performances
when the tandem’s front blade was rotated to match the upstream flow. Three
strategies for rotating the blade were investigated: rotation around the trailing edge,
rotation around the middle point of the central chord and rotation around a point
outside the blade. Rotation of the front blade significantly reduced compressor stage
losses and, in most cases, prevented the separation phenomena that occurred with
the initial configuration, while achieving better compression ratios at each inlet flow
angle. The third strategy only investigated high flow angles (above 50°), as geometry
changes are limited. Although the first two strategies showed similar results at low
inlet flow angles, rotation around the trailing edge performed better than the other
two tuning strategies, particularly at high flow angles. Using the latter, the incidence
range can be extended to 34.2°, more than double the initial range. The present work
highlighted the interest to use such a configuration, especially if operating operations
lead to high inlet flow angles.
Finally, simulations also showed that the optimum blade rotation angle was often
close to that which minimizes the relative incidence of flow on the front blade leading
edge for inlet flow angles around the reference angle (50°). However, for extreme
angles (around -15 to +10° beyond this reference angle), the optimum angle of rotation
is sometimes relatively different from this minimum angle of relative incidence,
as more complex phenomena take on greater importance (gap dimensions, general
shape of the tandem, etc.).


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Auteur

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

Promoteur(s)

Membre(s) du jury

  • Terrapon, Vincent ULiège Université de Liège - ULiège > Département d'aérospatiale et mécanique > Modélisation et contrôle des écoulements turbulents
    ORBi Voir ses publications sur ORBi
  • Rocca, Andrea Cenaero
  • Princivalle, Remy
  • Nombre total de vues 88
  • Nombre total de téléchargements 91










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