To read this content please select one of the options below:

Magnetogasdynamic shock waves in a nonideal self-gravitating gas using Lie group theoretic method

Gorakh Nath (Department of Mathematics, MNNIT, Allahabad, India)
Abhay Maurya (Department of Mathematics, MNNIT, Allahabad, India)

Engineering Computations

ISSN: 0264-4401

Article publication date: 23 October 2023

Issue publication date: 5 December 2023

97

Abstract

Purpose

The purpose of the present article is to obtain the similarity solution for the shock wave generated by a piston propagating in a self-gravitating nonideal gas under the impact of azimuthal magnetic field for adiabatic and isothermal flows.

Design/methodology/approach

The Lie group theoretic method given by Sophus Lie is used to obtain the similarity solution in the present article.

Findings

Similarity solution with exponential law shock path is obtained for both ideal and nonideal gas cases. The effects on the flow variables, density ratio at the shock front and shock strength by the variation of the shock Cowling number, adiabatic index of the gas, gravitational parameter and nonidealness parameter are investigated. The shock strength decreases with an increase in the shock Cowling number, nonidealness parameter and adiabatic index, whereas the strength of the shock wave increases with an increase in gravitational parameter.

Originality/value

Propagation of shock wave with spherical geometry in a self-gravitating nonideal gas under the impact of azimuthal magnetic field for adiabatic and isothermal flows has not been studied by any author using the Lie group theoretic method.

Keywords

Citation

Nath, G. and Maurya, A. (2023), "Magnetogasdynamic shock waves in a nonideal self-gravitating gas using Lie group theoretic method", Engineering Computations, Vol. 40 No. 9/10, pp. 2510-2532. https://doi.org/10.1108/EC-03-2023-0110

Publisher

:

Emerald Publishing Limited

Copyright © 2023, Emerald Publishing Limited

Related articles