随着水下航行体对推进器高性能和低噪声要求与日俱增,迫切需要研究适用于水下航行体的推进泵。本文选出影响水下航行体推进泵水动力性能的主要参数,基于三元可控速度矩方法,编写Matlab程序对推进泵进行参数化设计,并结合CFD数值模拟方法进行设计优化与试验验证。CFD计算结果表明模型泵水力效率能达到83%,达到设计目标并准确把握了设计工况点,验证了本方法的可靠性,为开发高性能水下航行体推进泵奠定基础。
With the increasing demand of underwater vehicles for the high performance and low noise of propulsion, it is urgent to study the water-jet pump which is suitable for underwater vehicles. According to 3D controllable velocity moment theory, this paper chooses the main parameters which greatly infect the hydrodynamic performance of the underwater vehicle water-jet pump and conduct parametric design through Matlab programming. Design and optimization are carried out with the help of CFD numerical simulation method. The CFD results show that the efficiency of the model pump can reach 83%, and all hydrodynamic performance achieve the design goal, moreover, the design operating point is grasped accurately,thus testifying that this parametric design method is reliable and lay the foundation for high performance underwater vehicle water-jet pump.
2017,39(7): 43-47 收稿日期:2016-10-26
DOI:10.3404/j.issn.1672-7649.2017.07.009
分类号:U661.1
基金项目:国家自然科学基金资助项目(51579145)
作者简介:李鹏程(1991-),男,硕士研究生,专业方向为喷水推进
参考文献:
[1] 戴原星, 王立祥. 基于CFD的前置导叶轴流泵通用特性曲线预报[J]. 船舶, 2013, (5): 1–5.
[2] 蔡佑林, 王立祥, 张新. 混流泵叶轮三元可控速度矩设计[J]. 流体机械, 2005, 33(11): 13–15.
[3] 吴志旺. 基于环量分布的高比转速混流泵设计[D]. 镇江: 江苏大学, 2009.
[4] WU CH, A general theory of three-dimension flow in subsonic and supersonic turbo machines of axial, radial, and mixed-flow type, ASME Paper Number 50-A-79, ASME Transactions, 1952, or NACA TN 2604, 1952, 1–90.
[5] 王海松. 轴流泵CAD-CFD综合特性研究[D]. 北京: 中国农业大学, 2005.
[6] MENTER F R. Zonal two equation k-w turbulence models for aerodynamic flows[R]. AIAA-93–2906, 1993.
