TIME-ACCURATE SIMULATION OF FLOW PAST PZL W-3A “SOKÓŁ” (FALCON) HELICOPTER MAIN ROTOR IN FORWARD FLIGHT

OSKAR SZULC; PIOTR DOERFFER; JERZY ŻÓŁTAK; JACEK MAŁECKI

TASK Quarterly (Jan 2013)

TIME-ACCURATE SIMULATION OF FLOW PAST PZL W-3A “SOKÓŁ” (FALCON) HELICOPTER MAIN ROTOR IN FORWARD FLIGHT

OSKAR SZULC,
PIOTR DOERFFER,
JERZY ŻÓŁTAK,
JACEK MAŁECKI

Affiliations

OSKAR SZULC: Institute of Fluid-Flow Machinery
PIOTR DOERFFER: Institute of Fluid-Flow Machinery
JERZY ŻÓŁTAK: Institute of Aviation
JACEK MAŁECKI: PZL-Świdnik S.A.

Journal volume & issue: Vol. 17, no. 1-2

Abstract

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The paper presents the results of numerical simulations based on the URANS approach and the chimera overlapping grids technique of the main PZL W-3A “Sokół” (Falcon) helicopter rotor in forward flight conditions. The low-speed flight case models the helicopter rotor as parallel to the ground keeping forward speed of approximately 99 km/h. Strong BladeVortex Interaction (BVI) is responsible for a high level of vibration and noise. The high-speed (266 km/h) case reveals two main problems of modern helicopters: compressibility effects due to strong shock-wave boundary layer interaction on the advancing side and separation leading to a dynamic stall on the retreating side of the rotor. An attempt is made to correlate the results of the simulations with the very limited flight test data.

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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