NUMERICAL ANALYSIS ON MODEL- AND FULL-SCALE UNSTEADY PROPELLER FORCE FOR UNDERWATER VEHICLE

被引:0
|
作者
Takahashi, Kenshiro [1 ]
Arai, Jun [1 ]
Mori, Takayuki [1 ]
机构
[1] Minist Def, Acquisit Technol & Logist Agcy, Naval Syst Res Ctr, Meguro Ku, Tokyo, Japan
来源
PROCEEDINGS OF ASME 2022 41ST INTERNATIONAL CONFERENCE ON OCEAN, OFFSHORE & ARCTIC ENGINEERING, OMAE2022, VOL 5B | 2022年
关键词
unsteady propeller forces; helm angle; full scale; computational fluid dynamics; DARPA SUBOFF model; INSEAN E 1619 propeller;
D O I
暂无
中图分类号
P75 [海洋工程];
学科分类号
0814 ; 081505 ; 0824 ; 082401 ;
摘要
Submarines and other underwater vehicles must meet extensive specifications regarding their acoustic signatures to perform covert missions. However, marine propellers produce unsteady forces, resulting in undesirable noise. In this context, the unsteady propeller force of an underwater vehicle was analyzed at the model scale and full scale, based on computational fluid dynamics. The DARPA SUBOFF submarine and INSEAN E1619 propeller were adopted as benchmark models. The propeller rotational speeds under self-propelled conditions were determined using the body-force propeller method. The dominant harmonics of the unsteady propeller forces were analyzed using the Fourier series. The effects of pre-swirl flow generated by the helmed stern planes were investigated. Reynolds scaling was examined to predict the amplitudes of the propeller forces at full scale, based on the model-scale values.
引用
收藏
页数:10
相关论文
共 50 条
  • [1] Propeller noise at model- and full-scale
    Trebble, W.J.G.
    Williams, J.
    Donnelly, R.P.
    Journal of Aircraft, 1983, 20 (01): : 34 - 41
  • [2] Numerical prediction of cavitation erosion on a ship propeller in model- and full-scale
    Peters, Andreas
    Lantermann, Udo
    el Moctar, Ould
    WEAR, 2018, 408 : 1 - 12
  • [3] Numerical prediction analysis of propeller bearing force for full-scale hull-propeller-rudder system
    Wang, Chao
    Sun, Shuai
    Li, Liang
    Ye, Liyu
    INTERNATIONAL JOURNAL OF NAVAL ARCHITECTURE AND OCEAN ENGINEERING, 2016, 8 (06) : 589 - 601
  • [4] PROPELLER NOISE AT MODEL-SCALE AND FULL-SCALE
    TREBBLE, WJG
    WILLIAMS, J
    DONNELLY, RP
    JOURNAL OF AIRCRAFT, 1983, 20 (01): : 34 - 41
  • [5] Numerical study on effects of leading-edge manufacturing defects on cavitation performance of a full-scale propeller. I. Simulation for the model- and full-scale propellers without defect
    Jin, Shanqin
    Peng, Heather
    Qiu, Wei
    PHYSICS OF FLUIDS, 2024, 36 (10)
  • [6] MODEL- AND FULL-SCALE RANS SIMULATIONS FOR A DRIFT TANKER
    Yao, J.
    INTERNATIONAL JOURNAL OF MARITIME ENGINEERING, 2017, 159 : A197 - A204
  • [7] Numerical prediction analysis of the fluctuating pressure and rudder force of full-scale hull-propeller-rudder system
    Sun, Cong
    Wang, Chao
    Sun, Sheng-xia
    Chang, Xin
    Zhang, Liang
    OCEAN ENGINEERING, 2018, 147 : 580 - 590
  • [8] Numerical simulation of boundary-layer transition flow of a model propeller and the full-scale propeller for studying scale effects
    Huilan Yao
    Huaixin Zhang
    Journal of Marine Science and Technology, 2018, 23 : 1004 - 1018
  • [9] Numerical simulation of boundary-layer transition flow of a model propeller and the full-scale propeller for studying scale effects
    Yao, Huilan
    Zhang, Huaixin
    JOURNAL OF MARINE SCIENCE AND TECHNOLOGY, 2018, 23 (04) : 1004 - 1018
  • [10] Comparison of model- and full-scale wind-tunnel performance
    Smith, Brian E., 1600,
12345