Abstract
The net is regarded as the most critical component in marine aquaculture facilities as it is the only barrier which protects the environment from fish escapes. Accurate predictions of the net cage deformation and drag force on the nets are needed, both for ensuring fish welfare and for dimensioning of the mooring system. Thus, an appropriate hydrodynamic model is essential. In practice, two types of hydrodynamic force models, i.e., the Morison type and the Screen type, are commonly used to calculate the hydrodynamic forces on nets. Application of the models depends on the underlying structural model and the availability of data. A systematic review of hydrodynamic models is therefore undertaken to compare the models and various parameterisations, in aid of model selection during the design. In this study, eleven commonly used hydrodynamic models, i.e., five Morison models and six Screen models, are reviewed comprehensively, and implemented into a general finite element (FE) solver for dynamic simulations. Sensitivity studies on different current velocities, inflow angles and solidities of the nets are carried out. Moreover, different wake effects are also considered in numerical simulations. The numerical results from different models are compared against existing experimental data under pure current conditions. Suggestions for selection of suitable hydrodynamic models are provided, based on the model comparison.
Highlights
According to the Food and Agriculture Organization of the United Nations, aquaculture has been the world’s fastest-growing food production method in the past 40 years (FAO, 2018)
The second case compares the discrepancies among the different hydrodynamic models for net panels with respect to different current velocities, inflow angles and solidities
3 The new formula proposed in the present work can fix the evident defect in the previous formula for the net-to-net wake effect
Summary
According to the Food and Agriculture Organization of the United Nations, aquaculture has been the world’s fastest-growing food production method in the past 40 years (FAO, 2018). According to the Norwegian Seafood Research Fund, the seafood industry has invested more than NOK 115 billion in Norway since 2000 (Blomgre et al, 2019). The investment in the aquaculture industry upgraded conventional farming facilities and generated novel aquaculture structures such as Ocean Farm 1 and Havfarm. These innovative structures are designed to operate in the open sea and aiming to minimise the environmental impacts of aquaculture. As the environmental loads on nets account for more than 85 % of total loads on a conventional fish cage (Cheng, 2017), accurate predictions on the hydrodynamic responses of nets are essential in the structural design
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