[1]胡健,王楠,胡洋.导管桨水动力特性的数值研究[J].哈尔滨工程大学学报,2017,38(06):815-821.[doi:10.11990/jheu.201603045]
 HU Jian,WANG Nan,HU Yang.Numerical study on the hydrodynamic performance of ducted propellers[J].hebgcdxxb,2017,38(06):815-821.[doi:10.11990/jheu.201603045]
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《哈尔滨工程大学学报》[ISSN:1006-6977/CN:61-1281/TN]

卷:
38
期数:
2017年06期
页码:
815-821
栏目:
出版日期:
2017-06-25

文章信息/Info

Title:
Numerical study on the hydrodynamic performance of ducted propellers
作者:
胡健 王楠 胡洋
哈尔滨工程大学 船舶工程学院, 黑龙江 哈尔滨 150001
Author(s):
HU Jian WANG Nan HU Yang
College of Shipbuilding Engineering, Harbin Engineering University, Harbin 150001, China
关键词:
导管桨计算流体力学湍流模型水动力性能斜流运动参考系螺旋浆
分类号:
U661.1
DOI:
10.11990/jheu.201603045
文献标志码:
A
摘要:
为了研究导管桨的推力、转矩和效率等关键水动力参数与进速系数之间的关系,本文采用计算流体力学技术(computational fluid dynamics,CFD)分析导管对螺旋桨水动力特性的影响。在建立导管桨的计算模型时,采用了全结构化网格技术,螺旋桨和导管之间的相对运动通过运动参考系(moving reference frame,MRF)方法实现。本文以JD7704+Ka4-55导管桨为例,分析其定常水动力性能,用试验结果对数值计算结果进行了初步验证,进而研究了不同导管长度和叶稍间距时导管桨的水动力特性,并探讨了斜流对导管桨推力、转矩和效率的影响。结果表明:导管桨在低进速下由导管所产生的推力会有较大提升,导管的存在能够显著减小斜流中螺旋桨推力和转矩的脉动。

参考文献/References:

[1] BORENSTEIN J, KOREN Y. Histogramic in-motion mapping for mobile robot obstacle avoidance[J]. IEEE transactions on robotics and automation, 1991, 7(4):535-539.
[2] FEITEN W, BAUER R, LAWITZKY G. Robust obstacle avoidance in unknown and cramped environments[C]//IEEE International Conference on Robotics and Automation, 1994:2412-2417.
[3] KHATIB M. Sensor-based motion control for mobile robots[C]//5th International Symposium on Applied Computational Intelligence and Informatics. Timisoara, Romania, 2009.
[4] 韩宝玉, 熊鹰, 叶金铭. 面元法预估导管螺旋桨定常性能的一种简便方法[J]. 船海工程, 2007, 36(3):42-45.HAN Baoyu, XIONG Ying, YE Jinming. A simple method to predict the steady performance of ducted propeller with surface panel method[J]. Ship & ocean engineering, 2007, 36(3):42-45.
[5] 刘小龙, 王国强. 导管螺旋桨定常性能预估的基于速度势的面元法[J]. 船舶力学, 2006, 10(3):26-35.LIU Xiaolong, WANG Guoqiang. A potential based panel method for prediction of steady performance of ducted propeller[J]. Journal of ship mechanics, 2006, 10(3):26-35.
[6] 杨晨俊, 王国强. 导管螺旋桨定常性能理论计算[J]. 上海交通大学学报, 1997, 31(11):36-39.YANG Chenjun, WANG Guoqiang. Theoretical prediction of the steady performance of ducted propellers[J]. Journal of Shanghai Jiao Tong University, 1997, 31(11):36-39.
[7] KAWAKITA C. A surface panel method for ducted propellers with new wake model based on velocity measurements[J]. Journal of the society of naval architects of Japan, 1992, 1992(172):187-202.
[8] KINNAS S, HSIN C Y, KEENAN D. A potential based panel method for the unsteady flow around open and ducted propellers[C]//Eighteenth Symposium on Naval Hydrodynamics.[S.l.], 1991.
[9] SANCHEZ-CAJA A, RAUTAHEIMO P, SIIKONEN T. Simulation of incompressible viscous flow around a ducted propeller using a RANS equation solver[C]//Proceedings of the 23rd Symposium on Naval Hydrodynamics.[S.l.], 2000.
[10] 解学参, 黄胜, 胡健, 等. 导管桨内部流场的数值计算[J]. 哈尔滨工程大学学报, 2009, 30(1):7-12.XIE Xuesen, HUANG Sheng, HU Jian, et al. Inner flow field calculations for ducted propellers[J]. Journal of Harbin Engineering University, 2009, 30(1):7-12.
[11] 胡健, 黄胜, 马骋, 等. 影响导管桨内部流场的几个因素[J]. 天津大学学报, 2009, 42(4):340-344.HU Jian, HUANG Sheng, MA Chi, et al. Several influence factors for the inner flow field of ducted propeller[J]. Journal of Tianjin University, 2009, 42(4):340-344.
[12] PARK W G, JUNG Y R, KIM C K. Numerical flow analysis of single-stage ducted marine propulsor[J]. Ocean engineering, 2005, 32(10):1260-1277.
[13] 崔立新. 导管螺旋桨的水动力性能及噪声性能预报[D]. 哈尔滨工程大学, 2013.CUI Lixin. Prediction of hydrodynamic performances and noise of ducted propeller[D]. Harbin:Harbin Engineering University,2013.
[14] 项立银, 陈杨. 结构化与非结构化网格融合技术研究[J]. 雷达与对抗, 2012, 32(3):53-55.XIANG Liyin, CHEN Yang. A study on structured and unstructured grid fusion technology[J]. RADAR & ECM, 2012, 32(3):53-55.
[15] PAN G, CHENG B, ZHANG P, et al. Coupling design and performance analysis of rim-driven integrated motor propulsor[C]//OCEANS 2016-Shanghai. IEEE, 2016:1-6.
[16] MULJOWIDODO K, ADI N, PRAYOGO N, et al. Design and testing of underwater thruster for SHRIMP ROV-ITB[J]. Indian Journal of geo-marine sciences, 2009, 38 (3) :338-345
[17] 周水清, 孔繁余, 王志强, 等. 基于结构化网格的低比转数离心泵性能数值模拟[J]. 农业机械学报, 2011, 42(7):66-69.ZHOU Shuiqing, KONG Fanyu, WANG Zhiqiang. Numerical simulation for low specific-speed centrifugal pump with structured grid[J]. Transaction of the Chinese Society for Agricultural Machinery, 2011, 42(7):66-69.
[18] 杨春蕾, 朱仁传, 缪国平, 等. 基于 CFD 方法的船/桨/舵干扰数值模拟[J]. 水动力学研究与进展 A 辑, 2011, 26(6):667-673.YANG Chunlei, ZHU Renchuan, MIAO Guoping. CFD-based numerical simulation of hull/propeller/rudder interaction[J]. Chinese journal of hydrodynamics (series A), 2011, 26(6):667-673.
[19] 胡磊, 谭廷寿. 大侧斜螺旋桨敞水性能分析[J]. 船海工程, 2010, 39(1):41-44.HU Lei, TAN Tingshou. Analysis of open water performance of the high-skew propeller[J]. Ship & Ocean Engineering, 2010, 39(1):41-44.
[20] 陈庆光, 徐忠, 张永建. RNG 湍流模型在冲击射流数值计算中的应用[J]. 力学与实践, 2002, 24(6):21-24.CHEN Qingguang, XU Zhong, ZHANG Yongjian. Application of RNG turbulence models on numerical computations of an impinging jet flow[J]. Mechanics in Engineering, 2002, 24(6):21-24.
[21] 杨从新, 巫发明, 张玉良. 基于滑移网格的垂直轴风力机非定常数值模拟[J]. 农业机械学报, 2009, 40(6):98-102.YANG Chongxin, WU Faming, ZHANG Yuliang. Numerical simulation on unsteady rotated flow of a vertical axis wind turbine based on moving meshes[J]. Transaction of the Chinese society for agricultural machinery, 2009, 40(6):98-102.本文引用格式:胡健, 王楠, 胡洋. 导管桨水动力特性的数值研究[J]. 哈尔滨工程大学学报, 2017, 38(6):815-821.HU Jian, WANG Nan, HU Yang. Numerical study on the hydrodynamic performance of Ducted Propellers[J]. Journal of Harbin Engineering University, 2017, 38(6):815-821.

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备注/Memo

备注/Memo:
收稿日期:2016-03-14。
基金项目:国家自然科学基金项目(11302057,51579052).
作者简介:胡健(1979-),男,副教授.
通讯作者:胡健,E-mail:hujian791018@163.com.
更新日期/Last Update: 2017-07-10