Marine propellers performance and flow-field prediction by a free-wake panel method

被引:0
作者
Luca Greco
Roberto Muscari
Claudio Testa
Andrea Di Mascio
机构
[1] CNR-INSEAN,Italian Ship Model Basin
[2] CNR-IAC,Istituto per le Applicazioni del Calcolo “M. Picone”
来源
Journal of Hydrodynamics | 2014年 / 26卷
关键词
BEM hydrodynamics; free-wake analysis; BEM-Ranse comparison;
D O I
暂无
中图分类号
学科分类号
摘要
A Boundary Element Method (BEM) hydrodynamics combined with a flow-alignment technique to evaluate blades shed vorticity is presented and applied to a marine propeller in open water. Potentialities and drawbacks of this approach in capturing propeller performance, slipstream velocities, blade pressure distribution and pressure disturbance in the flow-field are highlighted by comparisons with available experiments and RANSE results. In particular, correlations between the shape of the convected vortex-sheet and the accuracy of BEM results are discussed throughout the paper. To this aim, the analysis of propeller thrust and torque is the starting point towards a detailed discussion on the capability of a 3-D free-wake BEM hydrodynamic approach to describe the local features of the flow-field behind the propeller disk, in view of applications to propulsive configurations where the shed wake plays a dominant role.
引用
收藏
页码:780 / 795
页数:15
相关论文
共 52 条
  • [1] Kerwin J E(1978)Prediction of steady and unsteady marine propeller performance by numerical lifting-surface theory[J] Society of Naval Architects and Marine Engineers-Transactions 86 1-30
  • [2] Lee C S(1989)Hydrodynamic analysis of propellers in steady flow using a surface panel method, 2nd report: Flow field around propeller[J] Journal of the Society of Naval Architects of Japan 166 79-92
  • [3] Hoshino T(1982)Numerical methods for propeller design and analysis in steady flow[J] Society of Naval Architects and Marine Engineers-Transactions 90 416-453
  • [4] Greeley D S(1999)Cavitating propeller analysis including the effects of wake alignment[J] Journal of Ship Research 43 38-47
  • [5] Kerwin J E(2002)A study of wake discretization in relation to the performance of a propeller panel method[J] Ocean Engineering International 6 32-39
  • [6] Kinnas S A(2005)Unsteady rollup modeling for wake-adapted propellers using a time-stepping method[J] Journal of Ship Research 49 216-231
  • [7] Pyo S(2013)Simplified hydrodynamic models for the analysis of marine propellers in a wake-field[J] Journal of Hydrodynamics 25 954-965
  • [8] Liu P(2008)Numerical approaches for hydroacoustic analysis of marine propellers[J] Journal of Ship Research 52 57-70
  • [9] Colbourne B(2013)An unsteady aerodynamic formulation for efficient rotor tonal noise prediction[J] Journal of Sound and Vibration 332 6743-6754
  • [10] Politis G K(2011)Analysis of the flow past a fully appended hull with propellers by computational and experimental fluid dynamics[J] Journal of Fluids Engineering 133 061104-79
123456