Abstract

A numerical procedure to determine the response of an ideal quasi-one-dimensional Faraday magnetohydrodynamic (MHD) generator to inputted linear acoustic and entropy (temperature) waves is developed from fundamental considerations. The results of the numerical procedure are expressed in terms of nine frequency-dependent reflection and transmission coefficients. These reflection and transmission coefficients can be used in MHD generator duct system design and can also be used to predict possible unstable (amplifying) MHD generator duct behavior.

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