摘要
为对斜流中螺旋桨的水动力性能进行研究,基于低阶速度势面元法建立斜流螺旋桨水动力性能迭代计算模型,采用面元法对螺旋桨的水动力性能进行计算,并计算其在桨盘面上的诱导速度.在迭代计算过程中,根据来流速度和诱导速度对尾流进行调整,并对螺旋桨水动力性能进行重新计算,直至螺旋桨水动力收敛.实例计算结果表明,相对直流中运动的螺旋桨,斜流使得螺旋桨推力和转矩明显增加;效率在低进速条件下增加,而在高进速下降低.
In order to study the hydrodynamic performance of propeller in oblique flow,the iterative calculation model of propeller hydrodynamic performance in oblique flow was established based on low order velocity potential panel method.The hydrodynamic performance of propeller was calculated by using panel method,and the induced velocity of propeller on the disc was also calculated. During the iterative calculation process,the slipstream of propeller was adjusted according to the inflow velocity and the induced velocity,and the hydrodynamic performance of propeller was recalculated until the result converges. Example calculation result shows that the thrust and torque of the propeller is obviously increased by the oblique flow comparing with straight inflow,and efficiency increases at low advance speed and decreases at high advance speed.
引文
[1]VIVIANI M,BONVINO C P. Analysis of asymmetrical shaft power increase during tight manoeuvres[C]//FAST2007-9th International Conference on Fast Sea Transportation,2007.
[2]STETTLER J W. Steady and unsteady dynamics of an azimuthing podded propulsor related to vehicle maneuvering[D]. Massachusetts:Naval Architecture and Marine Engineering,MIT,2004.
[3]AMINI H,STEEN S. Experimental and theoretical analysis of propeller shaft loads in oblique inflow[J]. Journal of Ship Research,2011,55(4):1-21.
[4]谢清程,易小冬,王根禄,等.吊舱式推进器操舵工况水动力试验研究[J].中国造船,2008,49(1):19-24.XIE Q C,YI X D,WANG G L,et al. Experimental investigation on hydrodynamic of azimuthing podded propulsor[J]. Shipbuilding of China,2008,49(1):19-24.(in Chinese)
[5]熊鹰,盛立,杨勇.吊舱式推进器偏转工况下水动力性能[J].上海交通大学学报,2013,47(6):956-961.XIONG Y,SHENG L,YANG Y. Hydrodynamic performance of podded propulsion at declination angles[J].Journal of Shanghai Jiao Tong University,2013,47(6):956-961.(in Chinese)
[6]邱振良.螺旋桨斜流效应横向力对船舶操纵影响探析[J].中国航海,1999,45(2):36-40.QIU Z L. Investigation on the transverse force of propeller oblique flow effect upon the maneuver of river boat[J].Navigation of China,1999,45(2):36-40.(in Chinese)
[7]孙洪波.螺旋桨斜流横向力的计算方法探析[J].天津航海,2008(4):12-13.SUN H B. Calculation method investigation about the horizontal force of propeller in oblique flow[J]. Tianjin Navigation,2008(4):12-13.(in Chinese)
[8]张志荣,洪方文.斜流中螺旋桨性能数值分析方法研究[C]//船舶力学学术会议暨船舶力学创刊十周年纪念学术会议,2007.ZHANG Z R,HONG F W. Study on numerical analysis of propeller performance in oblique flow[C]//Academic Meeting of Ship Mechanics Conference and Tenth Anniversary of Ship Mechanics,2007.
[9]张文照,肖昌润.斜流中艇后螺旋桨水动力数值计算方法[J].舰船科学技术,2014,36(2):55-59.ZHANG W Z,XIAO C R. Numerical calculation metod of propeller hydrodynamic force in obliquemid-boat[J].Ship Science and Technology,2014,36(2):55-59.(in Chinese)
[10]常欣,梁宁,王超,等.斜流中螺旋桨非定常水动力性能的数值分析[J].哈尔滨工程大学学报,2017,38(7):1048-1055.CHANG X,LIANG N,WANG C,et al. Numerical analysis of unsteady hydrodynamic performance of propeller in oblique flow[J]. Journal of Harbin Engineering University,2017,38(7):1048-1055.(in Chinese)
[11]苏玉民,刘业宝,沈海龙,等.基于面元法预报导管桨性能的数值计算方法[J].华中科技大学学报,2012,44(8):58-59.SU Y M,LIU Y B,SHEN H L,et al. Surface panel method-based numerical calculation for predicting ducted propeller performances[J]. Journal of Huazhong University of Science and Technology,2012,44(8):58-59.(in Chinese)
[12]侯立勋,王超,黄胜.面元法在串列桨水动力性能预报中的应用[J].武汉理工大学学报,2014,38(2):294-297.HOU L X,WANG C,HUANG S. Application of surface panel method in tandem propellers hydrodynamic performance prediction[J]. Journal of Wuhan University of Technology,2014,38(2):294-297.(in Chinese)
[13]HSIN C Y. Development and analysis of panel methods for propellers in unsteady flow[D]. Massachusetts:Dept. of Ocean Engineering,MIT,1990.
[14]MORINO L,CHEN L,SUCIU E. Steady and oscillatory subsonic and supersonic aerodynamics around complex configurations[J]. AIAA Journal,1975,13(3):368-374.
[15]JESSUP S D. An experimental investigation of viscous aspects of propeller blade flow[D]. Washington:Catholic University of America. 1989.