NUMERICAL ANALYSIS OF HIGH-SPEED IMPULSIVE (HSI) NOISE OF PZL W3-A “SOKÓŁ” (FALCON) HELICOPTER MAIN ROTOR IN FORWARD FLIGHT

OSKAR SZULC; PIOTR DOERFFER; FERNANDO TEJERO; JERZY ŻÓŁTAK; JACEK MAŁECKI

doi:10.17466/TQ2015/19.2/P

TASK Quarterly (Apr 2015)

NUMERICAL ANALYSIS OF HIGH-SPEED IMPULSIVE (HSI) NOISE OF PZL W3-A “SOKÓŁ” (FALCON) HELICOPTER MAIN ROTOR IN FORWARD FLIGHT

OSKAR SZULC,
PIOTR DOERFFER,
FERNANDO TEJERO,
JERZY ŻÓŁTAK,
JACEK MAŁECKI

Affiliations

OSKAR SZULC: Polish Academy of Sciences, Institute of Fluid-Flow Machinery
PIOTR DOERFFER: Polish Academy of Sciences, Institute of Fluid-Flow Machinery
FERNANDO TEJERO: Polish Academy of Sciences, Institute of Fluid-Flow Machinery
JERZY ŻÓŁTAK: Institute of Aviation
JACEK MAŁECKI: PZL-Świdnik S. A.

DOI: https://doi.org/10.17466/TQ2015/19.2/P
Journal volume & issue: Vol. 19, no. 2

Abstract

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The paper presents the results of a numerical simulation of the flow and acoustic field generated by the PZL W3-A “Sokół” (Falcon) helicopter main rotor in high-speed forward flight conditions based on the URANS approach and the chimera overlapping grids technique. A refined CFD model (40+ million of control volumes, 600+ blocks chimera mesh) was designed to resolve the flow-field together with the low-frequency content of the acoustic pressure spectrum in the near-field of the rotor blades to allow high-speed impulsive (HSI) noise prediction. Detailed 3D data was recorded for one rotor revolution (approx. 3 TB) allowing exceptional insight into the physical mechanisms initiating the occurrence and development of the HSI noise phenomenon.

Published in TASK Quarterly

ISSN: 1428-6394 (Print)
Publisher: Gdańsk University of Technology
Country of publisher: Poland
LCC subjects: Technology: Technology (General): Industrial engineering. Management engineering: Information technology
Website: https://journal.mostwiedzy.pl/TASKQuarterly/index

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