JSV_Jan2019_JialinSu_Revised.pdf (2.78 MB)

On the acoustic response of a generic gas turbine fuel injector passage

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journal contribution
posted on 31.01.2019 by Jialin Su, Andrew Garmory, Jon Carrotte
A current trend in the design of modern aero engines is the transition towards leaner combustion as a solution to satisfy increasingly stringent emission regulations. Lean combustion systems are often more susceptible to thermoacoustic instability and the fuel injector can play a critical role. This paper presents an analytical study on the unsteady air flow through a generic injector passage in response to incident acoustic waves. The injector passage is represented by a simplified geometry which comprises the main geometrical passage features. The unsteady flow through the passage is obtained by combining the elemental solutions for different parts of the passage. This enables the transfer impedance of the injector passage to be determined and the effects of different design parameters on the sensitivity of the air flow to acoustic perturbations to be examined. The convective wave associated with the unsteady swirl vane wakes is also visited and compared with the results from the numerical simulations obtained in previous works. In addition to helping derive design practices for injector passages from the perspective of thermoacoustic instability, the current analysis can also be applied as a preliminary design tool to assess the acoustic characteristics for an injector passage of the axial swirler type.


This work has been funded by a Rolls-Royce/UK Engineering and Physical Sciences Research Council (EPSRC) industrial CASE studentship which is gratefully acknowledged by the authors. Numerical simulations were performed on were performed on HPC-Midlands funded by the EPSRC, Grant ref EP/K000063/1.



  • Aeronautical, Automotive, Chemical and Materials Engineering


  • Aeronautical and Automotive Engineering

Published in

Journal of Sound and Vibration


SU, J., GARMORY, A. and CARROTTE, J., 2019. On the acoustic response of a generic gas turbine fuel injector passage. Journal of Sound and Vibration, 446, pp.343-373.


© Elsevier


AM (Accepted Manuscript)

Publisher statement

This paper was accepted for publication in the journal Journal of Sound and Vibration and the definitive published version is available at https://doi.org/10.1016/j.jsv.2019.01.043.

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