Numerical optimization of straight multi-array side-branched mufflers using differential evolution method

Abstract: To overcome this noise, traditional reactive as well as dissipative mufflers have been used. However, the allowable backpressure and the extra load acting on the cooling tower are limited. So, in order to efficiently reduce the broad noise under a low-pressure drop and a small dead weight, a straight multi-array resonator muffler without sound absorbing wool is required. Multi-array Helmholtz mufflers with complicated Helmholtz resonators were found to be too expensive in manufacturing costs and can be easily … Show more

“…(12) Later, Chiu demonstrated side-branched silencers that reduced broadband noise. (13,14) On the basis of plane wave theory, Chiu constructed a two-chamber muffler with multiple parallel perforated plug tubes. (15) Chiu and Cheng established multi-diffuser silencers to reduce noise also on the basis of plane wave theory.…”

Numerical Analysis of Silencers Composed of Screw Tube, Expansion Cone, Orifice Plate, and Perforated Tube by Finite Element Method

“…(12) Later, Chiu demonstrated side-branched silencers that reduced broadband noise. (13,14) On the basis of plane wave theory, Chiu constructed a two-chamber muffler with multiple parallel perforated plug tubes. (15) Chiu and Cheng established multi-diffuser silencers to reduce noise also on the basis of plane wave theory.…”

Numerical Analysis of Silencers Composed of Screw Tube, Expansion Cone, Orifice Plate, and Perforated Tube by Finite Element Method