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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 591-593The Progress of the Study on Fan Noise Reduction...

The Progress of the Study on Fan Noise Reduction Technology

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Abstract:

The paper reviews the research results of the fan noise in recent years, including both achievements acquired and problems existed. The domestic and overseas researches of fan noise mechanism mainly focus on air dynamic noise. However, the fan noise control method expounds the problem from three aspects, namely, the modern design manufacturing application in noise reduction, new material new structure used in noise reduction, and active noise reduction. Finally, the paper prospects the main development direction of fan noise reduction.

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Manufacturing Engineering and Automation II

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Periodical:

Advanced Materials Research (Volumes 591-593)

Pages:

2056-2059

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.591-593.2056

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Cite this paper

Online since:

November 2012

Authors:

Xiang Hua Lin, Ji Li, Yun Peng Cai, Ming Hui Ji

Keywords:

Fan Noise, Noise Control Method, Noise Mechanism

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© 2012 Trans Tech Publications Ltd. All Rights Reserved

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[1] X.S. Bao: Technology Study on Adaptive Noise Cancellation for Ship Self-Noise(Ph.D.,harbin:Harbin Engineering University, China 2007) (In Chinese)

[2] X.X. Zhou: Noise Control Technology and New Progress(beijing:Metallurgical Industry Press, China 2007), p.67 (In Chinese)

[3] F.Y. Zhong: Leaf Mechanical Pneumatic Acoustic Translation Essays(beijing:China Machine Press,China,1987) (In Chinese)

[4] S.M. Chen D.F. Wang and S.M. Sun: Bionic Fan Optimization Based on Taguchi Method. Engineering Applications of Computational Fluid Mechanics, Vol. 5 (2011) No.3 (In Chinese)

DOI: 10.1080/19942060.2011.11015373

[5] X.L. Liu, D.T. Qi, Y.J. Mao and C. Zhao: Aerodynamics Optimization and Noise Characteristic for Forward-Swept Centrifugal Fan with Tandem Blades.Chinese Journal of Applied Mechanics, Vol. 26 (2009) No.1 (In Chinese)

[6] S.Q. Mei: Modern Design Method(Wuhan:Huazhong University of Science and Technology Press, China 2009) (In Chinese)

[7] H.Q. Li, G.P. Cheng and B.Q. Zhang: Topology Optimization Design of Constrained Layer Damping Plate-Cavity System Considering Vibro-acoustic Coupling.Journal of Vibration, Measurement & Diagnosis, (2011) No.5 (In Chinese)

[8] Takaaki Hase, Nobuhiko Yamasaki and Tsutomu Ooishi: Numerical Simulation for Fan Broadband Noise Prediction.Journal of Thermal Science, Vol. 20 (2011) No.1, p.58

DOI: 10.1007/s11630-011-0435-z

[9] Z. Zhou, F. Lu, D.T. Qi, M.J. Yuan and H.H. Zhou: Numerical Optimization on Vibration and Noise Reduction of Centrifugal Fan Volute.Journal of Xian Jiaotong University, (2011) No.9 (In Chinese)

[10] L.Y. Zhou: Study on Numerical Simulation and Vibro-Acoustics Analysis of Centrifugal Fan (Ms.D., Wuhan:Wuhan University of Technology, China 2007) (In Chinese)

[11] D.W. Yu and K. Chen: Modern Manufacturing Technology (Beijing:Tsinghua University Press, China 2006) (In Chinese)

[12] H.H. Yin and Z.Z. Chang: Principle of Axial Flow Fan Noise and Method to Reduce Noise.Compressor Blower & Fan Technology, (2007) No.1 (In Chinese)

[13] C.L. Meng, Y. Zhang, S. Yang and Z.B. Tian: Experimental Study on Vibration and Noise of Steel-free Fiber Reinforced Frictional Material.Noise and Vibration Control, (2010) No.2 (In Chinese)

DOI: 10.1109/icmtma.2009.214

[14] Z.G. Luo, B.L. Chen and C.L. Pang: Modal Testing and Analysis of Vibration Reduction Behavior of Metal-plastic Compound Materials.Noise and Vibration Control, (2010) No.2 (In Chinese)

[15] M. Zhao, H.T. Zhou, G.G. Chen and B.L. Zhou: Mechanical Vibration and Noise Learn (Beijing:Science Press, China 2004), p.246 (In Chinese)

[16] G.Q. Liang: Experimental Research on Noise Reduction of Bionic For Axial Flow Fan.Machine Design Research, (2010) No.6 (In Chinese)

[17] D.Y. Ma: Modern Acoustics Theory Basis(Beijing:Science Press, China 2010) (in chinese)

[18] X.B. Cui and Z.L. Ji: A Fast Multipole Boundary Element Method for Acoustic Preformance Prediction of Dissipative Silencers.Journal of Harbin Engineering University, (2011) No.4 (In Chinese)

[19] Q.H. Liu, D.T. Qi and S.Z. Cao: Review of Research on Fan Noise Reduction.Fluid machinery, (2001) No.2 (In Chinese)

[20] C.S. Dou and Y. Feng: A Secondary Path Modeling Technique for Active Noise Cancellation Headset Systems.Chinese Journal of Sensors and Actuators, (2011) No.2 (In Chinese)

[21] H.D. Liu and A.R. Qiu: Position optimization for secondary speaker and error sensor of duct active noise control system.Journal of Tsinghua University(Science and Technology), (2011) No.3 (In Chinese)

[22] Q.Z. Zhang, C. Zeng, B.H. Guan, J.M. Yi and Y.L. Zhou: Experimental Study on Active Control of Noise in Fan Duct on the Basis of Neural Network.Audio Engineering, (2002) No.7 (In Chinese)

[23] K.Mayyas, T.Aboulnasr: A fast exact weighted subband adaptive algorithm and its application to mono and stereo acoustic echo cancellation.Journal of the Franklin Institute, Vol. 342 (2005). P.235

DOI: 10.1016/j.jfranklin.2004.10.002