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Dokumenttyp:
Forschungsdaten
Veröffentlichungsdatum:
24.03.2022
Verantwortlich:
Fournier, Guillaume J. J.
Autorinnen / Autoren:
Fournier, Guillaume J. J. (1); Meindl, Max (1); Silva, Camilo F. (1) ; Ghirardo, Giulio (2) ; Bothien, Mirko R. (3) ; Polifke, Wolfgang (1)
Institutionszugehörigkeit:
1. Technical University of Munich
2. Ansaldo Energia, Switzerland
3. Zurich University of Applied Sciences
Herausgeber:
TUM
Titel:
Phase response of the cross-talk area in can-annular combustors for different gap geometries
Identifikator:
doi:10.14459/2022mp1652488
Enddatum der Datenerzeugung:
27.07.2020
Fachgebiet:
MAS Maschinenbau
zusätzliche Fachgebiete:
Thermofluiddynamik
Quellen der Daten:
Simulationen / simulations
Datentyp:
Datenbanken / data bases
Methode der Datenerhebung:
The dataset was generated using COMSOL Multiphysics to solve the Helmholtz equation with FEM. Details are given in Fournier, Guillaume J. J., Max Meindl, Camilo F. Silva, Giulio Ghirardo, Mirko R. Bothien, and Wolfgang Polifke. “Low-Order Modeling of Can-Annular Combustors.” Journal of Engineering for Gas Turbines and Power 143, no. 12 (December 1, 2021): 121004. https://doi.org/10.1115/1.4051954
Beschreibung:
Can-annular combustors exhibit a small gap in front of the turbine that allows acoustic communication between neighbouring cans. The dataset contains the equivalent reflection coefficients obtained with FEM Helmholtz simulations performed with COMSOL Multiphysics. For each azimuthal order, and for each geometrical configuration, the absolute value and the phase response of the gap is given as a function of frequency.
Schlagworte:
can-annular combustor; Helmholtz simulation; FEM; gap modeling
Technische Hinweise:
View and download (2.3 MB total, 281 Files)
The data server also offers downloads with FTP
The data server also offers downloads with rsync (password m1652488):
rsync rsync://m1652488@dataserv.ub.tum.de/m1652488/
Sprache:
en
Rechte:
by, http://creativecommons.org/licenses/by/4.0
Horizon 2020:
765998
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