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Eigenfrequency shift mechanism due to variation in the cross sectional area of a conduit

Author(s): Moez Louati; Mohamed S. Ghidaoui

Linked Author(s): Moez LOUATI, Mohamed S. Ghidaoui

Keywords: Asymptotic approach; blockage-detection in pipe system; eigenfrequency shift mechanism; energy approach; transient flow; pipe system

Abstract:

Eigenfrequency (i.e. natural resonant frequency) shift due to variation in the cross sectional area of a conduit is observed in different applications such as vocal tracts, musical instruments and water supply systems. In the context of water supply systems, past research focused on developing inverse problem techniques that use shifts in eigenfrequencies to identify blockages. The goal of this paper is to understand the mechanisms that cause this eigenfrequency shift. Application of the principle of action invariance to a small blockage shows that the eigenfrequency shift is directly related to the change in energy. For a severe blockage, the pipe system is decoupled into two independent subsystems: a subsystem that involves the blockage and another that involves the intact pipe section. The decoupling is lost when the blockage length is such that the fundamental frequencies of the two subsystems are close or equal, resulting in resonance where perturbation theory is successfully used to derive a simple frequency relation.

DOI: https://doi.org/10.1080/00221686.2017.1394373

Year: 2017

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