-
摘要: 通过对空泡水筒中螺旋桨进行空泡噪声测量试验,采集了螺旋桨在空化条件和非空化条件下的噪声信号。借助数字信号处理技术对声信号进行频谱分析,研究空泡噪声特征信号在频域的特征和规律,以便判别或预报这类空泡及其噪声特性。此次试验特别引入加速度计,测量了螺旋桨动力仪引起的机械振动信号,并得出其信号对水听器采集的水声信号影响较大,可采用噪声消除方法降低干扰。试验表明,噪声频率在高频时空化噪声比非空化噪声声功率级增加约20 dB。另外,详细介绍了噪声测量系统和测试方法,同时也采用高速摄像机对螺旋桨空泡进行了观测。Abstract: This paper investigates the cavitation and non-cavitation noises produced by propellers based on a water tunnel experiment. The power spectrum of the noise is first analyzed through digital signal processing technologies,where the frequency features and regular patterns of the cavitation noise signal are obtained for forecasting purposes. Particularly,the accelerometers are employed during the experiment to measure the mechanical vibration signal,which reveals its severe interference on the underwater acoustic signal. Thus,a noise reduction procedure is applied to reduce the external noise. The results show that at high frequencies,the sound power level under the cavitating flow condition is 20 dB higher than that under the non-cavitating flow condition. Aside from these observations,the cavitation behavior of the propeller is examined with the help of high-speed cameras,while the measuring system and methods are also discussed in detail.
-
Key words:
- cavitation tunnel /
- cavitation noise /
- high-speed camera /
- cavitation observation
-
张永坤. 舰船螺旋桨辐射噪声预报研究[D]. 武汉: 海军工程大学,武汉,2009. ZHANG Yongkun. Investigation on predication ship propeller radiated noise[D]. Wuhan:Naval University of Engineering,2009. 魏以迈. 我国船舶水下噪声研究进展综述[J]. 上海 造船,2000(1):27-32. WEI Yimai. The progress of the researches on the marine underwater noise in China[J]. Shanghai Shipbuilding,2000(1):27-32. 胡健. 螺旋桨空泡性能及低噪声螺旋桨设计研究
[D]. 哈尔滨:哈尔滨工程大学,2006. HU Jian. Research on propeller cavitation characteristics and low noise propeller design[D]. Harbin:Harbin Engineering University,2006.王波,张永坤,高霄鹏. 基于模型试验的螺旋桨空泡 噪声计算[J]. 海军工程大学学报,2010,22(6): 87-90. WANG Bo,ZHANG Yongkun,GAO Xiaopeng. Calculation of ship propeller cavitation noise based on model experiment[J]. Journal of Naval University of Engineering,2010,22(6):87-90. 冯源,陶然,卓智海. 加速旋转螺旋桨噪声测试水洞 试验研究[J]. 兵工学报,2010(12):1611-1616. FENG Yuan,TAO Ran,ZHUO Zhihai. Study on cavitation tunnel experiment of accelerating rotating propeller noise[J]. Acta Armamentarii,2010(12): 1611-1616. 魏松. 基于舰艇自航模技术的流噪声与螺旋桨噪声 测量与分析[D]. 武汉:海军工程大学,2011. WEI Song. Warship fluent and propeller radiated noise measuring and analyzing based on ship model test[D]. Wuhan:Naval University of Engineering,2011. 熊鹰,叶金铭,樊晓斌,等. 螺旋桨空泡及其诱导的脉 动压力的数值和试验研究[J]. 船舶力学,2006,10 (5):32-40. XIONG Ying,YE Jinming,FAN Xiaobin,et al. Numerical and experimental research on pressure fluctuations induced by propeller cavitation[J]. Journal of Ship Mechanics,2006,10(5):32-40. 盛立,熊鹰,王松. 空泡水洞中拖式吊舱推进器脉动 压力测量及空泡观测[J]. 舰船科学技术,2012,34 (2):30-35. SHENG Li,XIONG Ying,WANG Song. Fluctuating pressure measurement and cavitation observation of tug type pod propulsion in cavitation tunnel[J]. Ship Science and Technology,2012,34(2):30-35. 张永坤,熊鹰,赵小龙. 螺旋桨无空泡噪声预报[J]. 噪声与振动控制,2008,28(1):44-47. ZHANG Yongkun,XIONG Ying,ZHAO Xiaolong. Prediction of propeller non-cavitations noise[J]. Noise and Vibration Control,2008,28(1):44-47. 朱物华,朱士逖. 螺旋桨噪声的数据处理和频谱分 析[J]. 上海交通大学学报,1982(2):17-31. ZHU Wuhua,ZHU Shiti. The data processing and spectral analysis of propeller noise[J]. Journal of Shanghai Jiao Tong University,1982(2):17-31. 韩宝玉. 片空泡和梢涡空泡CFD 数值模拟及空泡 初生尺度效应研究[D]. 武汉:海军工程大学, 2011. HAN Baoyu. Numerical simulation of sheet cavitation and tip vortex cavitation and investigation to scale effect of tip vortex cavitation inception[D]. Wuhan:Naval University of Engineering,2011. 时立攀. 螺旋桨梢涡流场数值模拟与空化初生研究[D]. 武汉:海军工程大学,2011. SHI Lipan. Investigation to the inception of propeller tip vortex cavitation and the flowfield[D]. Wuhan: Naval University of Engineering,2011. -
点击查看大图
计量
- 文章访问数: 535
- HTML全文浏览量: 63
- PDF下载量: 1967
- 被引次数: 0
下载:
