为了分析敞水螺旋桨噪声性能,以某一螺旋桨为研究对象,采用大涡模拟方法对其敞水水动力性能进行计算,所得结果与试验值误差较小;然后运用基于无限元方法的声学软件Actran对螺旋桨的无空泡噪声进行数值模拟,并对特征点频谱曲线、螺旋桨声压云图、声指向性与衰减特性进行分析,得到单极子噪声特性-径向声压级高于轴向声压级,并且随着距桨中心距离的增大,声压级衰减速度减小,径向与轴向声压级差距缩小;验证数值预报方法的有效性,为船桨一体噪声数值模拟提供参考。
In order to analyze the open water propeller noise performance, Author used one propellers model as the research object, used large eddy simulation method to calculate its open water hydrodynamic performance, the results obtained with the experimental error is small; then used the acoustic software ACTRAN based on infinite element method to calculate its non-cavitations noise simulation, and analyzed spectral curve of characteristic point; further analyzed the propeller sound pressure contours, sound directivity and sound attenuation characteristics, obtained the monopole noise characteristics-the radial sound pressure level is higher than the radial axial sound pressure level, and with increasing distance from the center of the propeller, the sound pressure level decay rate decreases, SPL radial and axial narrow the gap; verify the validity of numerical prediction method, provides reference for ship and propeller integrated noise simulation.
2017,39(6): 23-27,32 收稿日期:2016-09-14
DOI:10.3404/j.issn.1672-7619.2017.06.005
分类号:U661.31
作者简介:朱江波(1984-),男,硕士,工程师,研究方向为船舶推进技术。
参考文献:
[1] SEOL H, JUNG B, SUH J C, et al. Prediction of non-cavitation underwater propeller noise[J]. Journal of Sound and Vibration, 2002, 257(1):131-156.
[2] SEOL H, SUH J C, LEE S. Development of hybrid method for the prediction of underwater propeller noise[J]. Journal of Sound and Vibration, 2005, 288:345-360.
[3] 朱锡清, 李亚, 孙红星. 船舶螺旋桨叶片与艉部湍流场互作用噪声的预报研究[J]. 声学技术, 2006, 25(4):361-364.ZHU Xi-qing, LI Ya, SUN Hong-xing. Ship propeller blades and stern turbulence field interaction noise prediction research[J]. Journal of Acoustic Technology, 2006, 25 (4):361-364
[4] 朱锡清, 唐登海, 孙红星, 等. 船舶螺旋桨低频噪声研究[J]. 水动力学研究与进展(A辑), 2000(1):74-81.ZHU Xi-qing, TANG Deng-hai, SUN Hong-xing, et al. Shiplow-requency noise of propeller study[J]. Water Dynamics Research and Progress (A), 2000(1):74-81.
[5] 熊紫英, 朱锡清, 刘小龙, 等. 船尾伴流场-导管-螺旋桨互作用噪声预报研究[J]. 声学学报, 2009 (2):117-123.XIONG Zi-ying, ZHU Xi-qing, LIU Xiao-long, et al. Sternwake field-catheter-interac;tion noise prediction research[J]. Aota Aoustioa, 2009(11):117-123.
[6] 杨琼方, 王永生, 曾文德, 等. 大侧斜螺旋桨负载噪声的边界元数值声学方法频域内计算分析[J]. 兵工学报, 2011(9):1118-1125.YANG Qiong-fang, WANG Yong-sheng, ZENG Wen-de, et al. Big side of the noise of the propeller load boundary element numerical acoustic method in the frequency domain analysis[J]. Acta Armamentarii, 2011 (9):1118-1125.
[7] 杨琼方, 王永生, 魏应三, 等. 基于URANS模拟的伴流场中大侧斜桨无空化噪声的时域和频域预报[C]//第十三届船舶水下噪声学术讨论会论文集, 北京, 2011:325-338.
[8] 杨琼方, 王永生, 张明敏. 舰艇螺旋桨水噪声预测[J]. 船舶力学, 2011, 5(4):435-442.
[9] 王超, 张立新, 郑小龙, 等. LES和无限元耦合方法预报螺旋桨均匀流噪声[J]. 哈尔滨工程大学学报, 2015(36):91-97.
[10] 王超, 郑小龙, 黄胜, 等. 基于无限元方法预报非均匀流中螺旋桨流噪声[J]. 中国造船, 2015(56):142-149.
[11] 宋晗, 王睿, 熊鹰. Kappel桨与传统螺旋桨噪声对比试验[J]. 中国舰船研究, 2015(10):92-98.
[12] ESCOBAR M. Finite element simulation of flow-induced noise using Lighthill's acoustic analogy[D]. Bayen:University Erlangen Nurnberg, 2007:36-57.
