水下高速航行体对转螺旋桨线谱噪声预报研究

对转螺旋桨的线谱噪声构成了水下高速航行体整个辐射噪声的重要部分．对转螺旋桨的线谱噪声是由前后桨与航行体尾流场相互作用及前后装相互干扰所引起的．线谱噪声预报方法是利用升力面理论和声学方法相结合实现的．详述了线谱噪声的理论计算方法、线谱噪声的特征和数值预报，同时也预报了尾流场的变化、前后桨间距变化对噪声级的影响等．预报值与实验结果吻合很好．整个方法对航行体的性能预报、噪声源识别和桨的低噪声设计均具有重要价值．     

水下对转桨无空化噪声调制理论分析与试验研究

水下对转桨无空化噪声由流场-桨叶相互作用引起,调制特性是水下对转桨无空化噪声的重要特征,本文研究了水下对转桨无空化辐射噪声调制机理。首先利用广义声类比方法得到了无空化条件下水下对转桨的远场声压谱,建立了水下对转桨无空化噪声的调制模型,然后数值仿真了模型对转桨无空化噪声的功率谱和调制谱,最后在空泡水筒中进行了模型对转桨的无空化噪声测量试验,数值仿真结果和试验验证了调制模型的准确性。该模型对于水下对转桨无空化噪声调制特性预报及目标识别具有重要价值.      

单叶片桨噪声相移叠加法预报多叶片船舶螺旋桨非空化低频噪声

单个桨叶噪声预报螺旋桨非空化噪声可显著降低计算耗时,本文联合URANS和声类比方程对该方法进行验证,并对螺旋桨噪声的时域特征进行分析。首先计算均匀流中E779A螺旋桨的声辐射,揭示了桨叶上声压分布及测点声压信号的典型周期特征,采用单个叶片噪声相移叠加(简称"单叶片方法")预报螺旋桨噪声的结果,与对螺旋桨所有叶片积分的计算结果吻合良好,验证了均匀流中单叶片方法的可行性。将该方法应用于潜艇伴流场中无侧斜和大侧斜螺旋桨噪声辐射计算,预报结果与所有叶片积分的结果吻合较好,验证了非均匀流场中单叶片方法的可行性,说明单叶片相移叠加法预报螺旋桨普遍进流条件下的辐射噪声是可行的。研究结论也可为对转桨、泵喷等噪声预报提供参考。      

水下高速目标对转螺旋桨空化线谱频率理论预报

水下高速目标对转螺旋桨常工作在空化状态,其噪声线谱由前后桨相互作用及前后桨与船舶尾流场的相互作用引起。通过Goldstein的声相似方程,将空泡看作螺旋桨的一部分,对空化条件下水下对转螺旋桨的线谱频率进行了理论预报。推导出了远场条件下单极子源性质的声源所产生的声压表达式,得到了其线谱预报频率。对实测水下高速目标进行了线谱预报,通过比较发现预报值与实测线谱频率具有较高的吻合度。     

浅析水下高速航行体对转螺旋桨辐射噪声线谱建模

分析了某水下高速航行体辐射噪声线谱统计特性,指出对转螺旋桨水下高速航行体线谱主要由螺旋桨“叶片速率”线谱及其谐波频率线谱组成。在此基础上,以周期信号为模型建立了航行体辐射噪声线谱数学模型,并应用该模型对不同转速航行体辐射噪声线谱频率进行了预测。     

船尾伴流场-导管-螺旋桨互作用噪声预报研究

研究了导管螺旋桨低频离散谱噪声辐射机理和预报方法。依据线性声学原理,导管螺旋桨噪声场为螺旋桨直接辐射噪声与导管散射噪声之和,并利用速度势面元法分析流场,得到导管螺旋桨非定常力,将其作为FW-H方程的源项,求解得到螺旋桨直接辐射声。导管散射声通过Kirchoff积分方程求解获得。由于导管桨的导管是短导管,其算例分析计算表明,低频情况下导管散射声级远小于螺旋桨直接辐射声级。并将导管螺旋桨离散谱噪声级与测量所得的实桨离散谱噪声级进行了比较,证实导管螺旋桨离散谱噪声理论预报结果能够较合理的反映实桨离散谱噪声的量值。      

一种从辐射噪声中提取调制谱的方法

在水下航行器的辐射噪声中,螺旋桨节拍对航行器的宽带辐射噪声存在着明显的振幅调制,调制频率与航行器螺旋桨的转速有关。该特征可用于估计航行器的速度及目标分类与识别。本文利用子波变换原理,从实测的航行器辐射噪声中提取了它的调制谱,并据此对螺旋桨转速进行了估计,计算机仿真结果与实测的螺旋桨的转速具有良好的一致性。     

水下噪声及其控制技术进展和展望

本文主要介绍近年来船舶行业水下噪声研究进展情况，包括水下噪声形成机理和预报；水下噪声控制技术；水下噪声近代测量分析技术，并提出对水下噪声研究工作的展望。     

水下气体喷射噪声特性研究

水下气体喷射形成了复杂气液流场,同时伴有频带宽、声压大的排气噪声产生。为研究水下排气流动状态与声压频谱之间的关系,建立水下排气噪声测试系统对水下排气形成的两相流场和排气噪声频谱进行了试验研究。结果表明随着排气速度的逐渐增大,排气形成的两相流场由气泡流态过渡为射流流态。伴随着流态的转换,气液边界面附近不稳定,形成大量体积较小气泡,这些小气泡在排气形成的湍流场激振作用下产生共振,从而辐射噪声;另一方面,这些气泡体积小,表面张力大,当多个气泡相互作用以及气泡形态发生变化时将释放出更高的能量,这些能量会辐射形成噪声;喷射流场的流态对水下排气噪声中频段声压峰值有较大的影响。当射流场由气泡流态过渡为射流流态后,2 kHz处对应的声压峰值呈非线性增大。     

不同环境下射流辐射噪声特性研究

水下排气噪声形成机理不同于空气排气噪声的产生机理,为了确定水下排气辐射噪声频谱特性及噪声源,进行了水下和空气气体喷射噪声试验研究。分析比较试验结果发现,气泡从管口脱落以及在流场力的作用下气泡体积振动产生的噪声是影响1~4 kHz频段声压的主要噪声源;当水下排气产生的两相流态由气泡流态过渡到射流流态后,气泡辐射噪声峰值与排气速率之间的线性关系消失,1~5 kHz频段内声压值变化较小,而在5 kHz以上的频段声压增幅较其它流量下却明显增大;水下排气由于气流剪切周围水体所引起的湍流噪声要明显低于空气排气产生的湍流噪声。     

Theoretical analysis and experimental research on non-cavitation noise modulation mechanism of underwater counter-rotation propeller

The underwater counter-rotation propeller non-cavitation noise has an obvious modulation characteristic which is due to the interaction of flow and blade. A modulation mechanism is presented in this paper. A sound pressure spectrum model is presented to describe its non-cavitation noise with application of generalized acoustic analogy method, the modulation mechanism is expressed with the improvement of sound pressure model. The power spectrum and modulation spectrum are presented by numerical simulation. Theoretical analysis and numerical simulation results are verified by the cavitation tunnel experiment. The modulation model of counter-rotation propeller is beneficial to the prediction modulation characteristics and identification of underwater high-speed vehicles.     

矢量拖线阵水听器流噪声响应特性

针对传统拖线阵流噪声理论的局限性, 建立了完善的矢量拖线阵流噪声理论分析方法, 可全面准确地揭示矢量拖线阵流噪声响应特性. 基于细长圆柱的湍流边界层压力起伏Carpenter模型, 采用波数-频率谱分析方法对矢量拖线阵流噪声响应特性进行了理论研究, 导出了圆柱形矢量水听器流噪声响应的声压和振速自功率谱及其互功率谱的解析表达式, 定量分析了流噪声响应功率谱与拖曳速度、水听器尺寸、套管尺寸和材料等参数之间变化规律; 另外, 还讨论了圆柱形矢量水听器偏离护套轴线时矢量拖线阵流噪声响应, 导出了流噪声响应的声压、径向和轴向振速自功率谱及其互功率谱的解析表达式, 数值计算结果表明: 轴线偏移距离对声压和轴向振速的高频噪声的影响要大于对低频噪声的影响, 而对径向振速的全频段噪声都有明显影响, 且对振速分量影响要远大于对声压影响.     

PREDICTION OF NON-CAVITATING UNDERWATER PROPELLER NOISE

Non-cavitation noise of underwater propeller is numerically investigated. The main purpose is to analyze non-cavitation noise in various operating conditions with different configurations. The noise is predicted using time-domain acoustic analogy and boundary element method. The flow field is analyzed with potential-based panel method, and then the time-dependent pressure data are used as the input for Ffowcs Williams-Hawkings formulation to predict the farfield acoustics. Boundary integral equation method is also considered to investigate the effect of ducted propeller. Sound deflection and scattering effect on the duct is considered with the BEM. The governing equations are based on the assumption that all acoustic pressure is linear. A scattering approach is applied in which the acoustic pressure field is split into the known incident component and the unknown scattered component. Noise prediction results are presented for single propeller and ducted propeller in non-uniform flow conditions similar to real situation. The investigation reveals that the effect of a duct on the acoustic performance propeller is small in the far field under non-cavitating situations since the noise directivities of single and ducted propellers are almost the same. Only the high order BPFs are influenced by the existence of the duct.     

水下流激孔腔噪声前馈有源控制实验研究

水流流经腔体时引起的自激振荡会形成流激噪声,该文通过仿真和实验研究了水下流激孔腔噪声的主动声场控制。应用有源前馈控制方法,对比了参考信号的选取以及控制器中增加的泄露因子对控制结果的影响,并在水循环管路中对流激孔腔噪声前馈控制效果进行了实验验证。研究结果表明,前馈有源噪声控制方法可有效抑制水下流激孔腔噪声,在误差点和辅助观测点都取得了良好的降噪效果,最大降噪量大于8 dB,并且使用腔内信号作为参考的控制效果优于上游信号作为参考。     

船舶典型结构损耗因子试验及应用研究

损耗因子是衡量系统阻尼特性并决定其振动能量耗散能力的重要参数,对船舶水下噪声预报分析具有重要影响。针对船舶结构特点,选取内底板、舱壁板和甲板等典型结构建立试验模型,基于瞬态衰减法,对船舶典型结构损耗因子进行测试,分析、掌握其特性规律。在此基础上,开展船舶典型结构损耗因子水下噪声预报应用研究,结果表明,损耗因子对船舶水下噪声具有较大影响,进行船舶水下噪声预报时需开展相关损耗因子测试。     

Prediction of flow-generated noise produced by acoustic and aerodynamic interactions of multiple in-duct elements

Flow-generated noise problem caused by in-duct elements is due to the complicated acoustic and turbulent interactions of multiple in-duct flow noise sources. The approach of partially coherent sound fields used previously by Mak and Yang [C.M. Mak, J. Yang, Flow-generated noise radiated by the interaction of two strip spoilers in a low speed flow ducts, Acta Acust united with Acustica 88 (2002) 861–868] and Mak [C.M. Mak, A prediction method for aerodynamic sound produced by multiple elements in air ducts, J Sound Vib 287 (2005) 395–403] is adopted to formulate the sound powers produced by interactions of multiple elements at frequencies below and above the cut-on frequency of the lowest transverse duct mode. The study indicates that the level and spectral distribution of the additional acoustic energy produced by the interactions of multiple elements can be predicted based on the measured data with respect to the interactions. The proposed method can form a basis of a generalized prediction method for flow-generated noise produced by multiple elements. The application of the proposed method is supported by two engineering examples.     

Flow-induced noise analysis for 3D trash rack based on LES/Lighthill hybrid method

A trash rack is used to obstruct dirt in a flow. As it is on the outside of the hull of a ship, such flow-induced noise cannot be ignored. This paper focuses on a hydrodynamic noise study of the trash rack installed on the inlet of pipelines to estimate the noise produced by the turbulent flow. A hybrid method of combining Large-Eddy Simulation (LES) and the Lighthill’s acoustic analogy theory simulate the flow-induced noise for a three-dimensional pipeline. The results of the simulation agree well with the experimental results available in the open literature. Following this, the hydrodynamic noise of flow through a three-dimensional pipeline with different types of trash racks is studied in order to determine the best form. For this objective, the flow and sound properties in different simulation models are analyzed and a low noise type of trash rack is proposed based on some general indexes.     

伴流场中对转桨空化初生的判定与辐射噪声预报和校验

采用空化多相流瞬态模拟和边界元数值声学计算相结合的混合方法,预报了全附体假尾后对转桨在初生空化状态下的线谱和宽带谱噪声,分析了初生空化状态下对转桨噪声谱级相对于无空化状态的增量,提出了同时从流场与声场角度判定对转桨空化初生的四个充分条件。预报值与空泡水筒噪声测量值进行了比较。多相流瞬态模拟包括非定常雷诺时均模拟、尺度适应模拟和分离涡模拟三种方法。计算结果表明,在大范围进速系数范围内预报对转桨敞水性能曲线与测量值吻合很好。尺度适应模拟(SAS)和分离涡模拟(DES)在捕捉对转桨空化脉动压力时精度相当,均能满足非定常负载噪声预报的精度要求;雷诺时均模拟(URAN S)仅对于低频负载噪声来说基本适用。空泡体积脉动诱导线谱噪声在800 Hz处的预报误差小于4 dB;在800 Hz^3 kHz频段内,预报得到1/3oct中心频率处谱级的平均误差小于1.5 dB,总声级预报误差小于2.4 dB。空化初生的充分条件为:空化面积与桨盘面面积的比值小于2%、积分力和叶梢截面压力系数分布较无空化状态基本不变且中高频段噪声谱级增加8~10 dB。较好地解决了伴流场中对转桨空化初生判定和初生空化状态下辐射噪声预报的两个技术难题,可直接服务于高速、低噪声鱼雷的设计研发。