Hydrodynamic and turbulence flow characteristics of fishing nettings made of three twine materials at small attack angles and low Reynolds numbers

The hydrodynamic variation of nettings in fishing applications (e.g., trawl net, purse seine, and fish cage) are centrally important. Their hydrodynamic characteristics and their surrounding flow fields at small attack angles are key because of their operation conditions, especially in flow directio...

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Bibliographic Details
Published in:Ocean engineering 2022-04, Vol.249, p.110964, Article 110964
Main Authors: Tang, Hao, Bruno Thierry, Nyatchouba Nsangue, Pandong, Achille Njomoue, Sun, Qiuyang, Xu, Liuxiong, Hu, Fuxiang, Zou, Baiqiang
Format: Article
Language:English
Subjects:
Hydrodynamic variations
Netting
Netting deformation
Small attack angle
Transitional turbulence [formula omitted] model
Turbulent flow
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Summary:The hydrodynamic variation of nettings in fishing applications (e.g., trawl net, purse seine, and fish cage) are centrally important. Their hydrodynamic characteristics and their surrounding flow fields at small attack angles are key because of their operation conditions, especially in flow direction. In this study, a numerical model on the fluid structure interaction in two-way coupling was developed. The developed model is based on the coupling between the porous media model combined with the transitional turbulence kT-kL-ω model and the nonlinear structural finite element model. The effects of twine diameter, mesh size, and twine material on both the hydrodynamic variation and turbulent flow developing around the flexible netting structure were assessed at small attack angles. The hydrodynamic variations of three types of nettings (i.e., polyethylene, polyamide, and polyester) with different solidity ratios at small attack angles were calculated and compared with experimental flume tank data. The numerical results agreed well with the experimental data with average relative errors of 2.82% and 4.82% for the drag and lift coefficients, respectively. Both the numerical and experimental results indicate that decreasing both solidity ratio and Reynolds number and increasing attack angle increases the drag coefficient and decreases the lift coefficient. In addition, increasing the attack angle, twine diameter, and solidity ratio, and decreasing mesh size enlarges both turbulence region and drag. Netting deformation decreases with increasing attack angle and solidity ratio, while the stress and elastic strain increase with increasing attack angle and decreasing solidity ratio. •The method based on the coupling between the porous media and kT-kL-ω models, and nonlinear FEM was proposed.•Hydrodynamic responses of the netting at both small attack angle and low Reynolds number were conducted.•The impact of the unsteady turbulent flows on the netting structure drag force was investigated.•The empirical drag coefficient formula of the netting at small attack angle was proposed.
ISSN:0029-8018
1873-5258
DOI:10.1016/j.oceaneng.2022.110964