Acoustic attenuation performance of perforated dissipative mufflers with empty inlet/outlet extensions

The acoustic attenuation performance of circular expansion chambers with extended inlet/outlet is investigated. Three approaches are employed to determine the transmission loss: (1) a two-dimensional, axisymmetric analytical solution for the concentric con®guration; (2) a three-dimensional computati

Expansion chambers with single-inlet and double-outlet provide desirable broadband acoustic attenuation similar to simple (single inlet/outlet) chambers and reduce the #ow noise and back pressure in exhaust systems. The present study develops a three-dimensional analytical approach to determine the

The inlet and outlet locations of expansion chambers can significantly affect the acoustic attenuation performance of the silencer, due to their control over the excitation and suppression of higher order modes. By combining the continuity conditions of the acoustic pressure and particle velocity wi

This is the second of two papers investigating the acoustic attenuation performance of asymmetric, circular expansion chambers with respect to the chamber length and the relative location of the offset inlet/outlet. Three approaches are employed to determine the transmission loss: (1) the three-dime