LARGE EDDY SIMULATION OF ACOUSTIC CHARACTERISTICS OF A SUBSONIC JET OUTFLOWING FROM CONICAL NOZZLE
The calculation of noise generated by a jet of viscous compressible gas flowing out from a conical nozzle is considered.
The calculations used the implicit version of the LES (Implicit LES, ILES), in which the role of the subgrid turbulence model performs numerical dissipation used finite-difference scheme. The distributions of the gas-dynamic and acoustic characteristics of the jet upon changing the conditions of its outflow are discussed. The analysis of the modal composition of the received noise is carried out and the correspondence between the features of the received directionality of the noise is determined by its various components and sources. The numerical simulation results are compared with the available experimental and calculated data.
How to Cite
Copyright (c) 2021 Pavel Chernyshov, Vladislav Emelyanov, Konstantin Volkov, Vladimir Sannikov
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Journal Akustika is peer reviewed journal indexed in Scopus database and
Web of Science.