Simultaneous Active Source Control of Blade Row Interaction Generated Discrete TonesUnsteady blade row interactions in turbomachines generate discrete-frequency tones at blade pass frequency and its harmonics. Specific circumferential acoustic modes are generated. However, only certain of these modes propagate upstream and downstream to the far field, with these the discrete frequency noise received by an observer. This paper is directed at experimentally demonstrating the viability of active noise control utilizing active airfoils to generate propagating spatial modes that interact with and simultaneously cancel the upstream and downstream propagating acoustic modes. This is accomplished by means of fundamental experiments performed in the Purdue Annular Cascade Research Facility configured with 16 rotor blades and 18 stator vanes. At blade pass frequency, only the k(sub 0) = -2 spatial mode propagates. Significant simultaneous noise reductions are achieved for these upstream and downstream propagating spatial modes over a wide range of operating conditions.
Document ID
20000020802
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Sawyer, Scott (Purdue Univ. West Lafayette, IN United States)
Fleeter, Sanford (Purdue Univ. West Lafayette, IN United States)
Date Acquired
August 19, 2013
Publication Date
February 1, 1999
Publication Information
Publication: Design Principles and Methods for Aircraft Gas Turbine Engines
IDRelationTitle20000020789Collected WorksDesign Principles and Methods for Aircraft Gas Turbine Engines20000020789Collected WorksDesign Principles and Methods for Aircraft Gas Turbine Engines