Share:


A third order correction to the Helmholtz equation

    J. Jegorovs Affiliation
    ; J. Mohring Affiliation

Abstract


In this work we derive a third order correction to the classical Helmholtz equation. Starting from non‐linear Euler equations and using asymptotical analysis we get a decoupled system of linear, Helmholtz type equations, which are written in terms of the acoustical pressure functions. We present also a rather simple concept of the boundary conditions. Also numerical results and accompanying difficulties are discussed and presented.



Helmholco lygties trečiosios eilės patikslinimas


Remiantis Oilerio lygtimis ir asimptotine analize gautas Helmholco lygties trečiosios eilės patikslinimas. Akustiniam slėgiui gauta Helmholco tipo lygtis bei jai išvestos sąlygos. Pateikti skaitinio modeliavimo rezultatai.


First Published Online: 14 Oct 2010

Keyword : non‐linear acoustics, Euler equations, asymptotic analysis, scaling, Helmholtz type equation, pressure, displacement, Lagrangian coordinates, non‐homogeneous Neumann boundary conditions, radiation boundary conditions

How to Cite
Jegorovs, J., & Mohring, J. (2005). A third order correction to the Helmholtz equation. Mathematical Modelling and Analysis, 10(1), 51-62. https://doi.org/10.3846/13926292.2005.9637270
Published in Issue
Mar 31, 2005
Abstract Views
373
PDF Downloads
271
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.