T0和T90网囊动稳特性比较分析

Comparative analysis of dynamic stability characteristics of T0 and T90 codends

  • 摘要: 改变网目使用方向是提高网囊选择性的主要方式之一,但易造成网囊水动力性能发生变化。为了量化T0 (传统菱形网目,即网衣纵目使用) 和T90 (网目旋转90°,即网衣横目使用) 两种网目使用方向下的网囊水动力和稳定性差异,利用循环动水槽试验,对T0和T90网囊在不同渔获量和网线直径条件下的形态、阻力和振荡变化进行测试分析。结果表明,T90网囊中段无明显收缩,中段网目张开角度约为T0网囊的1.2倍,且中段宽度明显大于T0网囊;T90网囊阻力大于T0,且模拟渔获物量每增加1倍,T90网囊阻力增加值约为T0的1.09倍。网囊存在渔获物时,T90网囊阻力振幅较T0大,采用T90网目的网囊会增加网囊阻力振幅,且随流速和渔获量的增加而增大。空网网囊纵向位移振幅和流速不存在明显关系。T0网囊纵向位移振幅较T90大,且随流速和渔获量的增加而增大,随网线直径的增加而减小。粗直径T90网囊有助于提高网囊的选择性和稳定性,但加大了网囊水阻力。研究结果可为优化网囊结构、改善网囊选择性,实现高效稳定的中层拖网作业提供基础科学数据。

     

    Abstract: Changing mesh orientation is a key appraoch to enhancing codend selectivity, but it may also alter the hydrodyna-mic performance of the codend. In order to quantify the differences in hydrodynamic and stability between T0 (A diamond mesh) and T90 (A 90° turned mesh) codends, we investigated the hydrodynamic characteristics, geometric shape, and fluttering motions of T0 and T90 codends with different twine diameters under varying flow velocities and catch sizes in a flume tank. Results show that the mesh opening angle in the middle part of T90 codend was approximately 1.2 times larger than of T0 codend. Moreover, the middle section of T90 codend had less shrinkage and greater width than T0 codend. The drag of T90 codend was, on average, larger than that of T0 codend and increased by 1.09 times with the simulative catch size. During the catch stage, the amplitude of the drag oscillations of the codend increased with increasing flow velocity and catch size, with T90 codend exhibiting larger amplitudes than T0 codend. There was no significant correlation between longitudinal displacement amplitude of the empty codend and current speed. Additionally, longitudinal displacement oscillations amplitudes in T0 codend were higher than those in T90 codend. The longitudinal displacement oscillations amplitudes in both codends increased with catch size and current speed, but decreased with twine diameter. The use of a thick diameter T90 codend can improve selectivity and stability, and increase the hydraulic resistance of the codend. The findings of this study can be applied to enhance the hydrodynamic characteristics, selectivity and stability of mid-water trawl codend.

     

/

返回文章
返回