毂帽鳍对调距桨推进效率影响的数值研究(英文)

Numerical simulation is investigated to disclose how propeller boss cap fins (PBCF) operate utilizing Reynolds-averaged Navier-Stokes (RANS) method. In addition, exploration of the influencing mechanism of PBCF on the open water efficiency of one controllable-pitch propeller is analyzed through the open water characteristic curves, blade surface pressure distribution and hub streamline distribution. On this basis, the influence of parameters including airfoil profile, diameter, axial position of installation and circumferential installation angle on the open water efficiency of the controllable-pitch propeller is investigated. Numerical results show: for the controllable-pitch propeller, the thrust generated is at the optimum when the radius of boss cap fins is 1.5 times of propeller hub with an optimal installation position in the axial direction, and its optimal circumferential installation position is the midpoint of the extension line of the front and back ends of two adjacent propeller roots in the front of fin root. Under these optimal parameters, the gain of open water efficiency of the controllable-pitch propeller with different advance velocity coefficients is greater than 0.01, which accounts for approximately an increase of 1%-5% of open water efficiency.     

基于翼剖面改型的空化抑制

为提高水翼抗空化的性能,对二维翼型的吸力面外形进行适当改造。首先通过数值计算对稳态无空化流场和稳态空化流场进行模拟,计算所得的吸力面压力系数与实验值吻合良好,验证了模型的可行性。在此基础上,采取基于阻碍回射流从而控制空化的思路,在翼型吸力面上设置微小方形凸起,并提出设置拱弧的新方案。通过对原翼型及两种改型的空化流场瞬态模拟,对比了不同时刻各模型气体体积分数云图所反映出的翼面空化程度差异。计算结果验证了阻流体对云状空化的抑制作用,同时表明设置拱弧阻流体的效果比方形阻流体好。     

基于遗传算法的水面舰艇舰载武器方案优化研究

以DDG 51驱逐舰的概念设计为例,应用遗传算法解决水面舰艇概念设计中舰载武器方案优选问题。在舰载武器方案优选过程中,应用权重系数法将作战性能和使用风险目标线性加权成统一评价函数,得到满足设计变量取值范围和约束条件的优化方案,取得较理想的优化结果。与DDG 51驱逐舰原始武器配置方案相比,通过该方法优化得出的方案具有较为明显的优越性。