喷水推进进口流道特征参数较多,各参数之间相互联系,当改变其中某个特征参数时,其他参数也会发生改变。本文通过推导得出各特征参数之间的关系,并以此为基础,在给定进口流道特征直径D、流道高度H、流道总长度L的条件下,以流道倾斜角为变量,开展进口流道的设计和建模,借助CFD技术研究进口流道效率与流道倾斜角之间关系。研究结果表明,在一定范围内进口流道效率会随着流道倾斜角的增加而降低,但是下降幅度不大。这一重要结论对进口流道结构与水动力权衡设计有较强的指导意义。
There are many feature parameters describing waterjet propulsion inlet duct and these parameters are related. When some dimensionischanged, the other ones are altered along with that. This paper concludes the relationship of these parameters through derivation. On the basis of that, in the condition that the inletduct feature diameter D, the height of duct H, the overall length of duct L are given, taking the duct inclination angle as variable, it designs and establishes models to research the relationship between inlet duct efficiency and inclinationangle through CFD technology. The result reveals that the inlet duct efficiency decreases with the rising of the inletduct inclination angle. However the decrease value is little. So to some extends, the inlet duct inclination angle has little affect on the inlet flow duct efficiency. This conclusion has great guiding significance in designing inlet duct.
2016,38(3): 55-58,96 收稿日期:2015-08-24
DOI:10.3404/j.issn.1672-7619.2016.03.012
分类号:U664.34
作者简介:汲国瑞(1990-),男,硕士研究生,研究方向为喷水推进。
参考文献:
[1] 金平仲. 船舶喷水推进[M]. 北京:国防工业出版社, 1988, 228-248. JIN Ping-zhong. Ship waterjet propulsion[M]. Beijing:National Defense Industry Press, 1988:228-248.
[2] ALLISON J. Marine waterjet propulsion[J]. SNAME Transaction, 1993, 101:275-335.
[3] Final report and recommendation to the 21th ITTC[C]//The 21th International Towing Tank Conference. Bergen and Trondheim, Norwegian:ITTC, 1996:189-209.
[4] Waterjet propulsive performance prediction-waterjet inlet duct, pump loop and waterjet system tests and extrapolation[C]//Final Recommendations of the Specialist Committee on Validation of Waterjet Test Procedures to the 24th ITTC. Edinburgh, UK:ITTC, 2005:7.5-02-05-03.2.
[5] ROBERT J L, WALKER G J. Boundary layer ingestion effects in flush waterjet intakes[C]//Proceedings of International Conference on Waterjet Propulsion. Amsterdam:RINA, 1998.
[6] 林建忠, 阮晓东, 陈邦国, 等. 流体力学[M]. 北京:清华大学出版社, 2013:326-328. LIN Jian-zhong, RUAN Xiao-dong, CHEN Bang-guo, et al. Fluid mechanics[M]. 2nd ed. Beijing:Tsinghua University Press, 2013:326-328.
[7] 雷林, 王智祥, 孙鹏, 等. 计算流体力学κ-ε二方程流模型应用研究[J]. 船舶工程, 2010, 32(3):5-8. LEI Lin, WANG Zhi-xiang, SUN Peng, et al. Application study on the turbulence mdels of κ-ε quadratic equation on CFD calculation[J]. Ship Engineering, 2010, 32(3):5-8.
[8] ALEXANDER K, COOP H, VAN TERWISGAT. Waterjet-hull interaction:recent experimental results[C]//SNAME Transaction. Jersey City, New Jersey:SNAME, 1994, 102:275-335.
