References
- Ballesteros-Tajadura, R., S. Velarde-Suarez, and J.P. Hurtado-Cruz. 2008. Noise prediction of a centrifugal fan: numerical results and experimental validation. Journal of Fluids Engineering. Transaction of the ASME 130:091102-1-12.
- Brentner, K.S. 1986. Prediction of helicopter discrete frequency rotor noise- a computer program incorporating realistic blade motions and advanced formulation. NASA TM 87721. http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19870001317.pdf.
- Chen, A. 2006. Numerical prediction of discrete noise produced by a cross-flow fan and centrifugal fans. . Master's Thesis. Tsinghua University, Beijing, China.
- Farassat, F., and G.P. Succi. 1983. The prediction of helicopter rotor discrete frequency noise. Vertica 7:309–20.
- Ffowcs Williams, J.E., and D.L. Hawkings. 1969. Sound generation by turbulence and surfaces in arbitrary motion. Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences 264(1151):321–42.
- ISO. 1990. International Standard 5136-1990, Acoustics-Determination of Sound Power Radiation into a Duct by Fans-Induct Method. Geneva, Switzerland: International Organization for Standardization.
- Khelladi, S., S. Kouidri, F. Bakir, and R. Rey. 2008. Predicting tonal noise from a high rotational speed centrifugal fan. Journal of Sound and Vibration 313(1–2):113–33.
- Lee, S., S. Heo, and C. Cheong. 2010. Prediction and reduction of internal blade-passing frequency noise of the centrifugal fan in a refrigerator. International Journal of Refrigeration 33(6):1129–41.
- Li, S. 1999. Applied study on noise reduction by anti-sound using Quincke tube and prediction of cut-off noise in centrifugal fans. . PhD Dissertation, Tsinghua University, Beijing, China.
- Liu Q., D. Qi, and Y. Mao. 2006. Numerical calculation of centrifugal fan noise. Proceedings of the IMECHE Part C Journal of Mechanical Engineering Science 220:1167–77.
- Liu Q., D. Qi, and H. Tang. 2007. Computation of aerodynamic noise of centrifugal fan using large eddy simulation approach, acoustic analogy, and vortex sound theory. Proceedings of the IMECHE Part C Journal of Mechanical Engineering Science 221:1321–32.
- Neise, W. 1982. Review of noise reduction methods for centrifugal fans. Journal of Engineering for Industry 104(2):151–61.
- Neise, W. 1992. Review of fan noise generations mechanisms and control methods. Fan Noise― An International INCE Symposium (CETIM). Senlis, France, pp. 45–56.
- Read, A., F. Mendonca, F. Barone, P. Durello, and F. Carena. 2004. Comparison between measured and predicted tonal noise from a subsonic fan using a coupled computational fluid dynamics (CFD) and computational acoustics (CA) approach. Collection of Technical Papers—10th AIAA /CEAS Aeroacoustics Conference 2:1521–31.
- Ryu, J., C. Cheong, S. Kim, and S. Lee. 2005. Computation of internal aerodynamic noise from a quick-opening throttle valve using frequency-domain acoustic analogy. Applied Acoustics 66(11):1278–308.
- Standardization Administration of China. 1991. China Standards GB/T 2888-91: Methods of noise measurement for fans, blowers, compressors and roots blowers. . Beijing, China: Standardization Administration of China.
- Standardization Administration of China. 2000. China Standards GB/T 1236-2000: Industrial fans performance testing using standardized airways. . Beijing, China: Standardization Administration of China.
- Velarde-Suarez, S., R. Ballesteros-Tajadura, J.P. Hurtado-Cruz, and C. Santolaria-Morros. 2006. Experimental determination of the tonal noise sources in a centrifugal fan. Journal of Sound and Vibration 295(3–5):781–96.
- Wang, M., J.B. Freund, and S.K. Lele. 2006. Computational prediction of flow-generated sound. Annual Review of Fluid Mechanics 38:483–512.
- Wells, V.L., and R.A. Renaut. 1997. Computing aerodynamically generated noise. Annual Review of Fluid Mechanics 29:161–99.
- Yu, Z., S. Li, W. He, W. Wang, D. Huang, and Z. Zhu. 2005. Numerical simulation of flow field for a whole centrifugal fan and analysis of the effects of blade inlet angle and impeller gaps. HVAC&R Research 11(2):263–83.