Abstract
Cylindrical structures are commonly used in offshore engineering, for example, a tension-leg platform (TLP). Prediction of hydrodynamic loadings on those cylindrical structures is one of important issues in design of those marine structures. This study aims to provide a numerical model to simulate fluid-structure interaction around the cylindrical structures and to estimate those loadings using the direct-forcing immersed boundary method. Oscillatory flows are considered to simulate the flow caused by progressive waves in shallow water. Virtual forces due to the existence of those cylindrical structures are distributed in the fluid domain in the established immersed boundary model. As a results, influence of the marine structure on the fluid flow is included in the model. Furthermore, hydrodynamic loadings exerted on the marine structure are determined by the integral of virtual forces according to Newton’s third law. A square array of four cylinders is considered as the marine structure in this study. Time histories of inline and lift coefficients are provided in the numerical study. The proposed approach can be useful for scientists and engineers who would like to understand the interaction of the oscillatory flow with the cylinder array or to estimate hydrodynamic loading on the array of cylinders.
Highlights
Marine structures are commonly utilized to undertake activities in the offshore region
The proposed numerical immersed boundary model was validated in our previous study Noor et al 16 which considered a uniform past circular cylinders, it will be validated by the study of the interaction of oscillatory flow with a single circular cylinder again
The oscillatory flow is featured by KeuleganCarpenter KC number which is determined by the formula UmT/D
Summary
Marine structures are commonly utilized to undertake activities in the offshore region. To obtain oil in the offshore region, a tension-leg platform TLP is used. Another example is the wave power station proposed by a Norwegian company 1. A platform with four circular cylinders is used as Journal of Applied Mathematics the main frame of the proposed wave power station. Since those marine structures are in the offshore region, hydrodynamic loading from waves and currents should be considered while one designs this sort of marine structures. The aim of this study is to establish a numerical model to predict hydrodynamic loading exerted on those circular cylinders in marine structures
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