VA One Applied in the Noise Control Numerical Simulation of an Indoor Substation

Rui Xu; Zhong Min Mei; Tian Long Mei; Ting Fang Yu; Jing Ping Wu; Hong Fan

doi:10.4028/www.scientific.net/AMM.419.801

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 419VA One Applied in the Noise Control Numerical...

VA One Applied in the Noise Control Numerical Simulation of an Indoor Substation

Abstract:

Due to the city indoor substations have caused serious noise pollution to the environment, a compatible model has been established to simulate the sound field at the main transformer chamber of a substation indoor and outdoor. Appling the software VA One, based on statistical energy analysis method, the sound filed of one 110kv substation transformer chamber in Nan Chang is taken as an example. Make appropriate noise control program according to the simulation results. Found that the sound pressure level, after reforming the inlet position, has met the requirements compared with the one before. The pressure level conforms to the requirements of the Urban Regional Environmental Noise Standards. Verify the rationality and reliability of the model and method.

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Periodical:

Applied Mechanics and Materials (Volume 419)

Pages:

801-807

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.419.801

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Online since:

October 2013

Authors:

Rui Xu, Zhong Min Mei, Tian Long Mei, Ting Fang Yu, Jing Ping Wu, Hong Fan

Keywords:

Indoor Substation, Noise Simulation, Statistical Energy Analysis Method, VA One

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References

[1] KENDING R P(1989). Sound intensity survey of the comerford HVDC converter station. 4(3): 1876-1881.

Google Scholar

[2] FOSTER S LREIPLINGER E(1981). Characteristics and control of transformer sound . 100(03): 1072-1077.

Google Scholar

[3] MCNUTT.W. J; SLOCIK.R.J. P; VORA.J. P (1982). Technology development for advanced concepts in gas-insulated power transformers: 2171-2177.

DOI: 10.1109/tpas.1982.317488

Google Scholar

[4] Yang Min, Zhou Zhaoping, Yan Qing(2010). Simulation and analysis of sound field in 220kV urban indoor substations [J]. Journal of southeast university . 40(6): 1226-1231.

Google Scholar

[5] Chen Wei. Research for acoustic characteristic of Interior noise in railway passenger car[D]; (2010). Dalian jiaotong university.

Google Scholar

[6] Wang Wanqiu, Liu Chuang(2009). The simulation system for spacecraft acoustic test [J]. Spacecraft environment engineering, 26(2): 140-142.

Google Scholar

[7] Pan Kai(2008). Study on prediction method of aircraft noise based on VA One software[J]. Measurement and control technology. 27(3): 22-26.

Google Scholar

[8] Li Feng, Xu Qinliang, Teng Tao, Zhang Jing(2011). Application of statistical energy analysis method in ship noise and vibration control[J]. Noise and vibration control: 152-155.

Google Scholar

[9] Li Xin. Noise Prediction and Analysis of hydraulic hoist chamber based on the Statistical Energy Analysis[D] (2011). Hunan university of science and technology.

Google Scholar

[10] Huang Minjun(2011). Monitoring and treatmen of low frequency noise of indoor distribution transformer[J]. Jiangsu electrical engineering. 30(2): 55-58.

Google Scholar

[11] Weng Xianbang, Wang Bangquan, Chen Ruishi(1990). Substation noise control and sound barrier model research [J]. Noise and vibration control: 36-41.

Google Scholar

[12] Wang Hezhong, Ji Xiaolong, Zhu Ruyong(2007). Analysis of oil-immersed power transformers noise and its counter [J]. Journal of Shandong electric college: 54-57.

Google Scholar

[13] Ma Yaoyu(2010). Measures for noise control of indoor substations. Journal of Chongqing electric power college [J]. 15(5/6): 26-28.

Google Scholar

[14] R H Lyon. Statistical energy analysis of dynamical systems: Theory and applications. Massachusetts: MIT Press, (1975).

Google Scholar

[15] Li Qian Wu Weiguo(2008). Prediction and control of noise based on Auto SEA. Chinese journal of ship research[J]. 3(1): 28-3.

Google Scholar

[16] Standard of environmental noise of urban area [S]. （GB3096-93）.

Google Scholar