Portal de Periódicos da CAPES

Impact of simple surge-enhancing inlet geometries on the acoustic behavior of a turbocompressor

2018; SAGE Publishing; Volume: 21; Issue: 5 Linguagem: Inglês

10.1177/1468087418784125

2041-3149

Alberto Broatch, X. Margot, J. García-Tíscar, Ferran Roig,

Aerodynamics and Fluid Dynamics Research

This article reports the results of an experimental campaign where four different inlet geometries for the compressor of an automotive turbocharger were acoustically characterized. These four geometries (a straight pipe for reference, a tapered duct, a 90° elbow and a reservoir) were selected for their potential for deep surge margin enhancement, while being simple enough to be commonly found in production vehicles. A detailed measurement of this surge margin enhancement was performed, together with acoustic measurements of both radiated and orifice noise at design conditions of best isentropic efficiency and also close to the deep surge limit. Results demonstrated that while all the proposed geometries indeed enlarged the usable air mass flow range, changes in the acoustic behavior of the system could be positive, neutral or even negative. It is therefore important to carefully consider accurate noise measurements before implementing these geometric solutions in production vehicles and to further pursue research on the link between the characteristic flow pattern produced by each inlet geometry and the noise emission of the turbocompressor.