HU Xiaodong

ZHOU Yiqi

FANG Jianhua
School of Mechanical Engineering,
Shandong University,
Jinan 250061, China

MAN Xiliang
Shandong Construction Machinery
Group Co.Ltd,
Jinan 250100, China

ZHAO Zhengxu
School of Computing,
Derby University,
Derby DE22 1GB, UK

Abstract: The pressure loss of cross-flow perforated muffler has been computed with the procedure of physical modeling, simulation and data processing. Three-dimensional computational fluid dynamics (CFD) has been used to investigate the relations of porosities, flow velocity and diameter of the holes with the pressure loss. Accordingly, some preliminary results have been obtained that pressure loss increases with porosity descent as nearly a hyperbolic trend, rising flow velocity of the input makes the pressure loss increasing with parabola trend, diameter of holes affects little about pressure loss of the muffler. Otherwise, the holes on the perforated pipes make the air flow gently and meanly, which decreases the air impact to the wall and pipes in the muffler. A practical perforated muffler is used to illustrate the available of this method for pressure loss computation, and the comparison shows that the computation results with the method of CFD has reference value for muffler design.

Key words: Perforated muffler Pressure loss Computational fluid dynamics (CFD) Porosity Flow velocity