Fluid-induced vibration detection technology for the multiphase sink vortex can help achieve
efficient, safe, and low-carbon sustainable industrial production in various areas such as the …

Water hammer or flow transients occur due to a sudden variation (over time) in flow
properties that can lead to pipe system failure or damage. In addition, research on wave …

The present work extends a recently developed quasi-2D flow model for fluid transients in
elastic pipes to accommodate fluid–structure interaction mechanisms. In this context, the …

The resonance problem of an industrial fluid-conveying pipeline system can be mitigated by
shifting or assigning its natural frequencies. However, the desired natural frequencies are …

Fluid-structure interaction (FSI) during water hammer in a viscoelastic (VE) pipe is studied in
the frequency domain. The main aim is to investigate pressure and stress waves using …

The dynamics research of fluid-filled pipelines in the general engineering field has received
extensive attention. As the aero-engine pipeline is laid on the casing, the casing flexibility …

Waterhammer induced fluid–structure interaction (FSI) of a leaky viscoelastic (VE) pipe is
simulated in the frequency-domain. The developed model is then applied to assess the …

This study offers a vast improvement to the established Matched Field Processing (MFP)
method for leak identification in terms of its versatility to pinpoint leaks with a single spatial …

Pipe systems connected to large cylindrical shells are common structures in submarines and
airplanes. The vibration behavior of such structures has attracted not much attention. Based …

In this paper, an analytical impedance synthesis method (ISM) is proposed to analyze the
vibration characteristics of a pipe-hull coupled system, in which the hull of a submarine can …