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Abstract

Numerical simulation of marine flexible net structures allows predicting the behavior of fishing gears and aquaculture cages. In recent years, the tendency toward the use of thicker and stronger twines in netting materials has made its resistance to opening a key factor in the performance of such structures. To accurately describe the mesh resistance to opening, a net twine was modeled as a double-clamped beam and its force–displacement response was calculated by finite element analysis. Fitting techniques were used to develop three different dimensionless stiffness models that express elastic forces in the twine as an explicit nonlinear function of its deformation: (1) a polynomial fitting of the force, (2) a spline fitting of the potential energy, and (3) a spring-based model able to deal with large axial deformations. Each model has different characteristics and advantages. Numerical and experimental tests were used to assess and compare them with previous models described in the literature. The results show that the presented models have very good accuracy and high computational efficiency. They will allow introducing accurate simulation of mesh resistance to opening in numerical simulations of marine netting structures without a high impact in the computational performance.

Keywords

Netting mesh resistance to opening flexural rigidity bending stiffness finite element

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References

Ito

Kinoshita

Bao

. Hydrodynamic behaviours of elastic net sheets in waves. Proc IMechE, Part M: J Engineering for the Maritime Environment 2012; 226(2): 156–169.

Le Dret

Lewandowski

Priour

. Numerical simulation of a cod end net part 1: equilibrium in a uniform flow. J Elasticity 2004; 76(2): 139–162.

Lee

C-W

Lee

J-H

Cha

B-J

. Physical modeling for underwater flexible systems dynamic simulation. Ocean Eng 2005; 32(3–4): 331–347.

Y-C

Zhao

Y-P

Gui

F-K

. Numerical simulation of the hydrodynamic behaviour of submerged plane nets in current. Ocean Eng 2006; 33(17–18): 2352–2368.

O’Neill

. Axisymmetric trawl cod-ends made from netting of a generalized mesh shape. IMA J Appl Math 1999; 62(3): 245–262.

Priour

. Calculation of net shapes by the finite element method with triangular elements. Commun Numer Meth Eng 1999; 15(10): 755–763.

Takagi

Shimizu

Suzuki

. Validity and layout of “NaLA”: a net configuration and loading analysis system. Fish Res 2004; 66(2–3): 235–243.

Tsukrov

Eroshkin

Fredriksson

. Finite element modeling of net panels using a consistent net element. Ocean Eng 2003; 30(2): 251–270.

Priour

Herrmann

O’Neill

. Modelling axisymmetric cod-ends made of different mesh types. Proc IMechE, Part M: J Engineering for the Maritime Environment 2009; 223(1): 137–144.

10.

DeCew

Tsukrov

Risso

. Modeling of dynamic behavior of a single-point moored submersible fish cage under currents. Aquac Eng 2010; 43(2): 38–45.

11.

Herrmann

Priour

Krag

. Theoretical study of the effect of round straps on the selectivity in a diamond mesh cod-end. Fish Res 2006; 80(2–3): 148–157.

12.

Khaled

Priour

Billard

J-Y

. Numerical optimization of trawl energy efficiency taking into account fish distribution. Ocean Eng 2012; 54: 34–45.

13.

Lee

C-W

Choe

M-Y

. Applying fishing-gear simulation software to better estimate fished space as fishing effort. Fish Aquat Sci 2011; 14(2): 138–147.

14.

Shimizu

Takagi

Korte

. Application of NaLA, a fishing net configuration and loading analysis system, to bottom gill nets. Fish Sci 2007; 73(3): 489–499.

15.

T-J

Dong

G-H

Zhao

Y-P

. Analysis of hydrodynamic behaviors of gravity net cage in irregular waves. Ocean Eng 2011; 38(13): 1545–1554.

16.

Herrmann

. Effect of catch size and shape on the selectivity of diamond mesh cod-ends: I. Model development. Fish Res 2005; 71(1): 1–13.

17.

Herrmann

O’Neill

. Theoretical study of the influence of twine thickness on haddock selectivity in diamond mesh cod-ends. Fish Res 2006; 80(2–3): 221–229.

18.

Sala

Lucchetti

Buglioni

. The influence of twine thickness on the size selectivity of polyamide codends in a Mediterranean bottom trawl. Fish Res 2007; 83(2–3): 192–203.

19.

O’Neill

. The influence of bending stiffness on the deformation of axisymmetric networks. In: Proceedings of the international conference on offshore mechanics and arctic engineering—OMAE, Vancouver, BC, Canada, 20–25 June 2004, pp.749–754. New York: ASME.

20.

O’Neill

. Twine flexural rigidity and mesh resistance to opening. In: ICES CM (1994/B:31), International Council for the Exploration of the Sea (ICES), Copenhagen, Denmark: 25–26 April 1994.

21.

O’Neill

. Bending of twines and fibres under tension. J Textil Inst 2002; 93(1): 1–8.

22.

O’Neill

. A theoretical study of the factors which influence the measurement of fishing netting mesh size. Ocean Eng 2003; 30(16): 2053–2063.

23.

Sala

O’Neill

Buglioni

. Experimental method for quantifying resistance to the opening of netting panels. ICES J Marine Sci 2007; 64(8): 1573–1578.

24.

Behbahani-Nejad

Perkins

. Hydrodynamic and geometric stiffening effects on the out-of-plane waves of submerged cables. Nonlinear Dynam 1997; 13(3): 243–257.

25.

Priour

. Introduction of mesh resistance to opening in a triangular element for calculation of nets by the finite element method. Commun Numer Meth Eng 2001; 17(4): 229–237.

26.

O’Neill

Priour

. Comparison and validation of two models of netting deformation. J Appl Mech: T ASME 2009; 76(5): 1–7.

27.

Peirce

. The “Handle” of cloth as a measurable quantity. J Textil Inst Trans 1930; 21(9): T377–T416.

28.

Abbott

. Yarn-bending and the weighted-ring stiffness test. J Textil Inst 1983; 74(5): 281–286.

29.

Z-Q

Zhou

Yan

. Measurement and characterization of bending stiffness for fabrics. Fiber Polym 2011; 12(1): 104–110.

30.

Lee

C-W

Kim

Y-B

Lee

G-H

. Dynamic simulation of a fish cage system subjected to currents and waves. Ocean Eng 2008; 35(14–15): 1521–1532.

31.

Sala

Lucchetti

Buglioni

. The change in physical properties of some nylon (PA) netting samples before and after use. Fish Res 2004; 69(2): 181–188.

32.

Moe

Olsen

Hopperstad

. Tensile properties for netting materials used in aquaculture net cages. Aquac Eng 2007; 37(3): 252–265.

33.

De la Prada

González

. Assessing the suitability of gradient-based energy minimization methods to calculate the equilibrium shape of netting structures. Comput Struct 2014; 135: 128–140.

34.

Herrmann

Priour

Krag

. Simulation-based study of the combined effect on cod-end size selection of turning meshes by 90° and reducing the number of meshes in the circumference for round fish. Fish Res 2007; 84(2): 222–232.

Nonlinear stiffness models of a net twine to describe mesh resistance to opening of flexible net structures

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