1 期                  张锦涛，等：单股直径变化对等股径三股绳索水动力性能的影响                                        50 卷

                    the  hydrodynamic  characteristics  of  stranded  cables[C]//OTC.  Engineering, 2020, 195: 106674.
                    Offshore  Technology  Conference.  Houston:  OnePetro,  1987:  [18]   Kebede  G  E,  Winger  P  D.  A  comparison  of  hydrodynamic
                    OTC-5521-MS.                                    forces in knotted and knotless netting, using both helix and con-
              [10]   Huang L Y, Zhang L, Dong T W, et al. Experimental study on  ventional ropes for midwater trawls[J]. Aquaculture and Fisher-
                    hydrodynamic  characteristics  of  three-stranded  polyethylene  ies, 2021, 6(1): 96-105.
                    rope[J]. Applied Mechanics and Materials, 2014, 490-491(981):  [19]   曾宇, 汪洪波, 孙明波, 等. SST  湍流模型改进研究综述  [J].
                    421-429.                                        航空学报, 2023, 44(9): 027411.
              [11]   张琳. 三股聚乙烯绳索的水动力学特性研究        [D]. 青岛: 中国        Zeng  Y,  Wang  H  B,  Sun  M  B,  et  al.  SST  turbulence  model
                    海洋大学, 2015.                                     improvements:  review[J].  Acta  Aeronautica  et  Astronautica
                    Zhang L. Experimental study on hydrodynamic characteristics  Sinica, 2023, 44(9): 027411 (in Chinese).
                    of  three-stranded polyethylene  rope[D].  Qingdao:  Ocean   Uni-  [20]   Menter  F  R.  Two-equation  eddy-viscosity  turbulence  models
                    versity of China, 2015 (in Chinese).            for  engineering  applications[J].  AIAA  Journal,  1994,  32(8):
              [12]   Nebres  J,  Batill  S,  Nelson  R.  Flow  about  yawed,  stranded  1598-1605.
                    cables[J]. Experiments in Fluids, 1993, 14(1-2): 49-58.  [21]   Menter  F  R.  Zonal  two  equation  k-w  turbulence  models  for
              [13]   Choc  Y  I,  Casarell  M  J.  Hydrodynamic  resistance  of  towed  aerodynamic flows[C]// AIAA. 23rd Fluid Dynamics, Plasma-
                    cables[J]. Journal of Hydronautics, 1971, 5(4): 126-131.  dynamics, and Lasers Conference. Orlando: AIAA, 1993: 93.
              [14]   Sato K, Miyazaki Y. Experimental research on hydrodynamic  [22]   Menter F R. Improved two-equation k-omega turbulence mod-
                    forces of towing or mooring line[J]. The Journal of Japan Insti-  els for aerodynamic flows[R]. NASA Technical Memorandum,
                    tute of Navigation, 1982, 67: 11-20.            1992.
              [15]   Wang X X, Wan R, Huang L Y, et al. Two-dimensional numer-  [23]   Menter F R, Kuntz M, Langtry R. Ten years of industrial exper-
                    ical simulation of flow around three-stranded rope[J]. Journal of  ience with the SST turbulence model[J]. Turbulence, Heat and
                    Ocean University of China, 2016, 15(4): 627-636.  Mass Transfer, 2003, 4: 625-632.
              [16]   Cheng H, Huang L Y, Ni Y, et al. Study on the flow character-  [24]   周应祺, 许柳雄. 渔具力学  [M]. 北京: 中国农业出版社, 2017.
                    istics  of  rope  and  cylinder  with  large-eddy  simulation[C]//  Zhou Y Q, Xu L X. Mechanics of fishing gear[M]. Beijing: Sci-
                    ASME. ASME  37th  International  Conference  on  Ocean,   Off-  ence Press, 2017 (in Chinese).
                    shore and Arctic Engineering. Madrid: ASME, 2018: 1-8.  [25]   Pérez Albornoz C, Escalante Soberanis M A, Ramírez Rivera
              [17]   Kebede G E, Winger P D, DeLouche H, et al. Flume tank eval-  V, et al. Review of atmospheric stability estimations for wind
                    uation of the hydrodynamic lift and drag of helix ropes com-  power  applications[J].  Renewable  and  Sustainable  Energy
                    pared to conventional ropes used in midwater trawls[J]. Ocean  Reviews, 2022, 163: 112505.






























              中国水产学会主办  sponsored by China Society of Fisheries                          https://www.china-fishery.cn
                                                            11