Stability analysis of thermo-acoustic nonlinear eigenproblems in annular combustors. Part II. Uncertainty quantification

DOI10.1016/j.jcp.2016.08.043zbMath1375.74029arXiv1602.08440OpenAlexW2285972862MaRDI QIDQ1685120

Matthew P. Juniper, Franck Nicoud, Luca Magri, Michael Bauerheim

Publication date: 13 December 2017

Published in: Journal of Computational Physics (Search for Journal in Brave)

Full work available at URL: https://arxiv.org/abs/1602.08440

zbMATH Keywords

adjoint methods uncertainty quantification annular combustors thermo-acoustic stability

Mathematics Subject Classification ID

Monte Carlo methods (65C05) Thermal effects in solid mechanics (74F05) Hydro- and aero-acoustics (76Q05)

Related Items (8)

Space-Split Algorithm for Sensitivity Analysis of Discrete Chaotic Systems With Multidimensional Unstable Manifolds ⋮ Spontaneous and explicit symmetry breaking of thermoacoustic eigenmodes in imperfect annular geometries ⋮ Stability analysis of thermo-acoustic nonlinear eigenproblems in annular combustors. Part I. Sensitivity ⋮ Adjoint-based sensitivity analysis of low-order thermoacoustic networks using a wave-based approach ⋮ Adjoint characteristic decomposition of one-dimensional waves ⋮ Combined state and parameter estimation in level-set methods ⋮ Dimension Reduction via Gaussian Ridge Functions ⋮ Stability, sensitivity and optimisation of chaotic acoustic oscillations

Cites Work

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