Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/28734
Type: Conference paper
Title: Experimental study of active control of high order acoustic modes in ducts
Author: Li, X.
Kestell, C.
Qiu, X.
Zander, A.
Hansen, C.
Citation: Acoustics 2002 [electronic resource] : innovation in acoustics and vibration : [proceedings of] the Annual Conference of the Australian Acoustical Society, 13-15 November, 2002 / Anthony Zander (ed.): pp.8-15
Publisher: Australian Acoustical Society
Publisher Place: C/o Professional Centre, Private Bag 1, Darlinghurst 2010
Issue Date: 2002
ISBN: 0909882193
Conference Name: Annual Conference of the Australian Acoustical Society (2002 : Adelaide, South Australia)
Statement of
Responsibility: 
Xun Li, Colin D. Kestell, Xiaojun Qiu, Anthony C. Zander and Colin H. Hansen
Abstract: Tonal noise radiated from an exhaust stack of a spray dryer system used to make powdered milk has been the source of unwanted community noise.The tone is characterised by a frequency above the first mode cut-on frequency of the exhaust duct and it is not steady in either amplitude or frequency. Passive silencing of the exhaust is a very expensive and inconvenient option and for this reason the feasibility of using active noise control was investigated. Zander and Hansen developed a theoretical model for analysing the effect of active noise control on higher order rectangular duct modes,and used it to evaluate the effects of source size,location and strength. It was shown that the total acoustic power reduction was dependent on the relative locations of the control sources. More recently this work was applied to the practical example of a cylindrical spray dryer exhaust stack to determine the most suitable location and number of control sources and error sensors. Prior to installation in the exhaust stack a half scale model was constructed to test the theory. Here, the effect of the error sensor locations on the active control on higher order acoustic modes propagating in the half scale circular duct is investigated experimentally using real time control with a multi-channel feedforward controller. A tachometer signal at the fan blade pass frequency (BPF) was fed into the controller as the reference signal for the feedforward control. Two configurations of error sensors on the duct wall were tested to evaluate how the error sensor locations affect the control performance, which was evaluated in the far field of the duct outlet.
RMID: 0020022027
Published version: http://www.mecheng.adelaide.edu.au/avc/publications/abstract.php?abstract=117
Appears in Collections:Mechanical Engineering conference papers
Environment Institute publications

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