A Special Boundary Integral Method for the Numerical Simulation of Sound Propagation in Flow Ducts Lined with Multi-Cavity Resonators

Abstract: In this work, acoustic performances of a liner concept based on perforated screens backed by air cavities are investigated numerically for circular ducts with mean flow. Dimensions of the cavity are chosen to be of the order or bigger than the wavelength so acoustic waves within the liner can propagate parallel to the duct surface. In this case, the liner becomes nonlocally reacting and this gives rise to additional resonance effects which renders the attenuation more effective over a broader frequency range. … Show more

“…In pipeline acoustics, many researchers have conducted a lot of research on pipeline noise optimization and proposed many different types of mufflers [7][8][9]. Lyu et al [10] designed a Helmholtz muffler for noise reduction at frequencies up to 145 Hz.…”

Structural Optimization of a Muffler for a Marine Pumping System Based on Numerical Calculation

“…In pipeline acoustics, many researchers have conducted a lot of research on pipeline noise optimization and proposed many different types of mufflers [7][8][9]. Lyu et al [10] designed a Helmholtz muffler for noise reduction at frequencies up to 145 Hz.…”

Structural Optimization of a Muffler for a Marine Pumping System Based on Numerical Calculation