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Research of Noise Attenuated Technology of an Inverter Reluctance Motor
Lan Jiang-Hua
   2013, 33 (1): 208-211.   DOI: 10.3969/j.issn.1006-1335.2013.01.043
Abstract1797)      PDF(pc) (1071KB)(2026)       Save
Analysis the excessive noise problems of an inverter reluctance motor,Detailed study the reason of problem frequency with the spectral analysis,the natural frequency of testing,electromagnetic force calculation method.Discussed the various possible noise reduction method and then proposed the effective noise reduction measures to solve the problem.
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Experimental Study of Passive Control Method of Pipeline Cavity Flow
HUANG You;OUYANG Hua;WU Ya-dong;TIAN Jie;DU Zhao-hui
   2012, 32 (4): 46-50.   DOI: 10.3969/j.issn.1006-1355.2012.04.0011
Abstract1633)            Save
Experiments were carried out in order to investigate the rectangular cavity flow of length-to-depth ratio of 5:1 using time-resolved particle image velocimetry (TR-PIV) technique. Three different passive control methods, including cylinder, sawtooth and rectangle body, were studied experimentally, having the same upstream velocity, i.e. 34 m/s. The experimental results show that the cylinder control method can increase shear layer thickness and effectively reduce the shear layer speed pulse and vorticity. Rectangle and sawtooth control methods will obviously raise shear layer to mainstream area, leading to no frontal impinging between the shear layer and the trailing edge of the cavity edge.
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Noise Test and Analysis of Two-phase Flow in Pipelines
YUAN Jin-ning;HAO Dian;WANG Jia
   2012, 32 (2): 168-170.   DOI: 10.3969/j.issn.1006-1355-2012.02.041
Abstract1652)            Save
Gas-and-liquid double-phased flow in pipelines generates noises. In this work, the double-channel data collector and spectrum analysis instrument were applied for data collection and processing of the noise of the pipelines. By changing the experiment conditions, the noises of the pipelines with different gas and liquid ratios were measured, and the corresponding frequency spectra of the noise were obtained. Through statistical analysis of the noise frequency spectra, the noise characters were summarized. It is concluded that noise testing is an effective method to confirm that whether the gas pipeline contains liquid and whether the liquid plug appears.
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Extraction of Transmission Bearing Fault Characters Based on EMD Fractal Technology
XIA Jun-zhong;LIU Yuan-hong; DAN Jia-bi;YANG Gang;XIAO Yun-kui
   2012, 32 (2): 119-122.   DOI: 103969/j.issn.1006-1355-2012.02.29
Abstract1205)            Save
Since the vibration signal of faulty bearing has fractal characteristics, the fault modes of a transmission bearing can be effectively identified by using fractal dimensions. However, the noise in the signal has a serious influence on the fractal dimension calculation, so empirical mode decomposition (EMD) method is necessary for solving the problem. In this article, the vibration signal of the transmission bearing was decomposed into intrinsic mode function (IMF) components by EMD, and then the fractal dimensions of these components were calculated to extract the fault characters of the transmission bearing in different conditions. The results show that EMD method is able to separate signals in different frequency bands effectively, and the fractal dimensions of specific IMF components are able to reflect the working state of the transmission bearing sensitively, which can be selected as the characteristic parameters to diagnose the transmission bearing’s fault. The combination of EMD and fractal dimension is an effective method of transmission bearing’s fault character extraction.
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Study on Moving Detrended Fluctuation Analysis Applied in Machinery Fault Diagnosis
GUO Yu-xiu;ZHANG Jin-min;YUAN Jing
   2011, 31 (5): 137-141.   DOI: 10.3969/j.issn.1006-1355-2011.05.032
Abstract1672)            Save
The method of Moving Detrended Fluctuation Analysis (MDFA) is studied, and the scaling exponent of the signal time sequence is obtained. It is found that the scaling exponent fluctuates greatly at the signal mutation point, while it fluctuates slightly in the trouble-free places. Thus, MDFA method can be used to detect the mutations in engineering signals. In this paper, the MDFA method is applied to the simulation of the signals due to mutation faults in gears and bearings, and the results show that the MDFA method is effective in mutations fault diagnosis of rotary machines.
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Effect of Penetration on Aerodynamic Acoustic Characteristics of Chevron Nozzle
ZHU Xi-jia;OU-YANG Hua;TIAN Jie;DU Zhao-hui
   2011, 31 (5): 113-116.   DOI: 10.3969/j.issn.1006-1355-2011.05.026
Abstract2025)            Save
Using TR-PIV technique and far-field measurement method, the aerodynamic acoustic characteristics of chevron nozzles with different penetrations have been studied at the Mach number Ma=0.12. Flow field results show that the chevron nozzles can reduce the potential core length and increase the mixing of the air flows in the core with the environment. With the penetration being higher, this tendency is increased. It is found that the chevron nozzles with high penetration can reduce low frequency noise, but increases high frequency noise; while the chevron nozzles with low penetration can reduce the global sound pressure level of the noise effectively. At aft angle of 150°, the chevron nozzle with low penetration can bring noise suppression by 1.3 dB. This work is of practical significance for jet noise control of factories.
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《Analysis of Factors Influencing Wave Velocity in Hydraulic Media》
AN Ji;ZHANG Hong-peng;ZHANG Yin-dong;SUN Yu-qing
   2010, 30 (1): 135-138.   DOI: 10.3969/j.issn.1006-1355.2010.01.135
Abstract2892)      PDF(pc) (1049KB)(1944)       Save
The factors which influence the wave velocity in hydraulic media are analyzed and computed. It is presented that in the high pressure system and oilgas doublephased state the previous assumptions for compressive wave velocity formula in hydraulic media are not true any more. Thus, a new estimation method is necessary. In this paper, a new nonintrusive measurement method is proposed. In this method, the pressure gauges are installed at two different positions on the pipeline to measure the time difference when the compressive wave reaches. Therefore, the wave velocity can be determined. The randomness of elastic modulus under the condition of oilgas doublephased flow is studied in highpressure fluid system. The results provide references for simulation, design and management of hydraulic systems.
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《Study on Radiating Sound Roughness of AcousticStructure Coupling Field in Sealed Cavity》
YUAN Ji-xuan;HUANG Qi-bai;WANG Jian-liang
   2010, 30 (1): 59-62.   DOI: 10.3969/j.issn.1006-1355.2010.01.059
Abstract2064)      PDF(pc) (946KB)(1301)       Save
Based on the finite element model of acousticstructure coupling field in a sealed cavity and the improved Senthares nonharmonic psychoacoustics model, the sound pressure level of the internal radiating sound due to the excitation of the harmonic force exerted on the shell of the cavity is calculated. The acousticstructure coupling effect is considered. The sound roughness caused by the rapid modulation at the evaluation point is analyzed. Moreover, the effects of the sound pressure level of the modulated sound, the frequency of the modulated sound and the stiffness of the shell on the radiating sound roughness are studied. This work provides the data and method for determination of the internal radiating sound roughness in the cavity caused by the rapid modulation of the other sound sources.
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《Application of Gabor Expansion in Modal Parameter Identification》
FAN Jiang-ling;ZHANG Zhi-yi;HUA Hong-xing
   2009, 29 (6): 15-18.   DOI: 10.3969/j.issn.1006-1355.2009.06.015
Abstract3069)      PDF(pc) (958KB)(2065)       Save

The Gaborexpansionbased time frequency filtering is employed to process measured signals before conducting parameter identification. With Gabor expansion, the local characteristics of a signal can be shown in the timefrequency domain, according to which the properties of responses are acquired and the response signals can be filtered by elimination or interception. This technique can be applied to both stationary and nonstationary signals. Attribute to this technique, more information about the signals and systems can be gained, such as the distribution of natural frequencies, energy assemble functions, quantity of properties contents in each channel.

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