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Applied mathematics and mechanics
Modeling of acoustic fields during gas flow around bodies
A. R. Bagapov, R. V. Zhalnin Ogarev Mordovia State University, Saransk
Abstract:
The article describes the modeling of the acoustic field based on the analysis of pressure fluctuations. For this a model based on the laws of mass, energy and momentum is implemented in a two-dimensional setting. For the calculations, the HLLC scheme for solving the Rieman problem and the WENO scheme for reconstructing the gas-dynamic parameters on the faces between the cells are used. To simulate the acoustic field, a time-averaged characteristic was chosen - the overall sound pressure level (OASPL). The paper considers the acoustic field obtained when a gas flows around a single square body, a cascade of square bodies, a step and a cavity, an interpretation of the ongoing processes is given. The result of the study is the visualization and description of the phenomena that arise when a gas flow around bodies, as well as the study of the effect of removing the observation point on acoustic effects within the simulated area.
Keywords:
gas dynamics, HLLC, WENO, acoustic field, acoustic noise, OASPL.
Citation:
A. R. Bagapov, R. V. Zhalnin, “Modeling of acoustic fields during gas flow around bodies”, Zhurnal SVMO, 22:3 (2020), 333–351
Linking options:
https://www.mathnet.ru/eng/svmo776 https://www.mathnet.ru/eng/svmo/v22/i3/p333
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Abstract page: | 110 | Full-text PDF : | 60 | References: | 29 |
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