低阻通风船体的远程控制测试平台开发（英文）

This paper addresses the development and testing of a remotely controlled boat platform with an innovative air-ventilated hull. The application of air cavities on the underside of ship hulls is a promising means for reducing hydrodynamic drag and pollutant emissions and increasing marine transportation efficiency. Despite this concept’s potential, design optimization and high-performance operation of novel air-cavity ships remain a challenging problem. Hull construction and sensor instrumentation of the model-scale air-cavity boat is described in the paper. The modular structure of the hull allows for easy modifications, and an electric propulsion unit enables self-propelled operation. The boat is controlled remotely via a radio transmission system. Results of initial tests are reported, including thrust, speed, and airflow rate in several loading conditions. The constructed platform can be used for optimizing air-cavity systems and testing other innovative hull designs. This system can be also developed into a high-performance unmanned boat.     

A havelock source panel method for near-surface submarines

A panel method is described for calculating potential flow around near-surface submarines. The method uses Havelock sources which automatically satisfy the linearized free-surface boundary condition. Outputs from the method include pressure field, pressure drag, wave resistance, vertical force, trim moment and wave pattern. Comparisons are made with model tests for wave resistance of Series 58 and DARPA SUBOFF hulls, as well as with wave resistance, lift force and trim moment of three length-to-diameter variants of the DSTO Joubert submarine hull. It is found that the Havelock source panel method is capable of determining with reasonable accuracy wave resistance, vertical force and trim moment for submarine hulls. Further experimental data are required in order to assess the accuracy of the method for pressure field and wave pattern prediction. The method is implemented in the computer code “HullWave” and offers potential advantages over RANS-CFD codes in terms of speed, simplicity and robustness.     

A non-geometrically similar model for predicting the wake field of full-scale ships

The scale effect leads to large discrepancies between the wake fields of model-scale and actual ships, and causes differences in cavitation performance and exciting forces tests in predicting the performance of actual ships. Therefore, when test data from ship models are directly applied to predict the performance of actual ships, test results must be subjected to empirical corrections. This study proposes a method for the reverse design of the hull model. Compared to a geometrically similar hull model, the wake field generated by the modified model is closer to that of an actual ship. A non- geometrically similar model of a Korean Research Institute of Ship and Ocean Engineering (KRISO)’s container ship (KCS) was designed. Numerical simulations were performed using this model, and its results were compared with full-scale calculation results. The deformation method of getting the wake field of full-scale ships by the non-geometrically similar model is applied to the KCS successfully.     

Experimental and numerical investigations on vibration characteristics of a loaded ship model

In this paper, vibration characteristics of the structure in the finite fluid domain are analyzed using a coupled finite element method. The added mass matrix is calculated with finite element method (FEM) by 8-node acoustic fluid elements. Vibration characteristics of the structure in finite fluid domain are calculated combining structure FEM mass matrix. By writing the relevant programs, numerical analysis on vibration characteristics of a submerged cantilever rectangular plate in finite fluid domain and loaded ship model is performed. A modal identification experiment for the loaded ship model in air and in water is conducted and the experiment results verify the reliability of the numerical analysis. The numerical method can be used for further research on vibration characteristics and acoustic radiation problems of the structure in the finite fluid domain.     

Numerical calculation of supercavitating flows over the disk cavitator of a subsonic underwater projectile

To deal with the effect of compressible fluids on the supercavitating flow over the subsonic disk cavitator of a projectile, a finite volume method is formulated based on the ideal compressible potential theory. By using the continuity equation and Tait state equation as well as Riabouchinsky closure model, an “inverse problem” solution is presented for the supercavitating flow. According to the impenetrable condition on the surface of supercavity, a new iterative method for the supercavity shape is designed to deal with the effect of compressibility on the supercavity shape, pressure drag coefficient and density field. By this method, the very low cavitation number can be computed. The calculated results agree well with the experimental data and empirical formula. At the subsonic condition, the fluid compressibility will make supercavity length and radius increase. The supercavity expands, but remains spheroid. The effect on the first 1/3 part of supercavity is not obvious. The drag coefficient of projectile increases as the cavitation number or Mach number increases. With Mach number increasing, the compressibility is more and more significant. The compressibility must be considered as far as the accurate calculation of supercavitating flow is concerned.     

归心改正理论在舰船真航向动态测量中的应用

采用计算方位和测量舷角相结合的方法进行真航向测量时,由于舰船安装条件有限,舰位测量设备DGPS和经纬仪不可能安装在同一位置。直接将DGPS测量的舰位作为经纬仪中心的位置会影响到方位角的计算结果,进而影响航向测量精度。本文采用归心改正理论根据DGPS测量的舰位推算经纬仪中心的精确位置,根据此位置计算出的岸标真方位的精度得到了提高,最终提高航向测量的精度。     

盲源分离技术在水声信号中的应用研究

通过研究α稳定分布,提出海洋噪声、舰船辐射噪声等符合低阶α稳定分布,在进行对称α稳定分布且独立的随机源信号进行盲分离处理时,若仍然采用高斯分布将不收敛。本文设计了分数低阶矩阵盲源分离算法,最后通过实验对比本文所设计算法和时延分离算法。实验结果表明:本文所设计的算法对于α稳定分布且有独立的随机信号,具有较好的收敛性,能够有效实现盲源信号分离。通过从复杂的海洋噪声中仍能较好地提取出船舱辐射噪声的实验,说明即使信噪比发生变化,源信号分离后相似系数较分离前仍然有稳定地提高。     

浅水中浮式栈桥单浮箱系泊系统及运动响应特性

基于三维势流理论,利用水动力分析软件AQWA对浅水中浮式栈桥单浮箱系泊系统及运动响应进行研究。对初步设计的多种系泊系统进行优选,并计算浮箱在最优系泊系统下的运动响应幅值算子RAO。结果表明:聚酯缆材料极易疲劳破坏,浅水中交叉型半张紧式锚链系泊表现出良好的系泊性能。浮箱的振幅响应算子RAO与波浪周期变化及波浪作用方向有不可分割的关系,当波浪入射角为120°~150°时,浮箱的纵荡及纵摇RAO较大。为保证较小的垂荡值,浮箱布置可沿入射波方向。为保证较小的首摇角,浮箱布置应避免与来浪呈120°的入射角。     

螺旋桨无键过盈安装应力数值分析

针对螺旋桨无键过盈安装后桨-轴应力数值计算问题,运用弹性力学理论和ANSYS有限元法进行应力的数值计算。通过理论值与仿真值的对比分析表明:桨-轴应力的仿真值比理论值略大,理论值与仿真值具有较好的一致性;Ansys有限元法考虑了接触边缘区域存在应力奇异性、桨-轴存在轴向应力和螺旋桨外表面存在径向应力的情况,比运用弹性力学理论求解更加准确可靠;通过桨-轴应力计算可以证明过盈量选取的合理性,为检验螺旋桨无键过盈安装的可靠性提供理论基础。     

激光焊接夹层板结构设计程序开发

基于U-I型、U-IV型、V-I型、V-IV型4种夹层板结构形式,利用PCL(Patran Command Language)语言对MSC.Patran进行二次开发,设计开发出折叠式夹层板结构设计程序(FEA-LASCOR)。该程序仅需设计者在用户界面简单操作即能够实现夹层板板格快速建模、屈服强度分析、结果处理等功能。验算分析表明FEALASCOR程序具有与传统数值仿真分析一样的精度,并缩短了繁琐的建模工作,显著提高设计分析效率,为夹层板船体结构设计高效、快捷的分析工具。