Hydrodynamics of offshore structures with specific focus on wind energy applications
This review covers the broad scope of ocean hydrodynamics on offshore marine structures,
laying the framework for studying offshore wind energy with a variety of engineering …
laying the framework for studying offshore wind energy with a variety of engineering …
An arbitrary boundary with ghost particles incorporated in coupled FEM–SPH model for FSI problems
T Long, D Hu, D Wan, C Zhuang, G Yang - Journal of Computational …, 2017 - Elsevier
It is important to treat the arbitrary boundary of Fluid–Structure Interaction (FSI) problems in
computational mechanics. In order to ensure complete support condition and restore the first …
computational mechanics. In order to ensure complete support condition and restore the first …
Fluid–structure interaction analysis by coupled FE–SPH model based on a novel searching algorithm
Abstract Fluid–Structure Interaction (FSI) problem is significant in science and engineering,
which leads to challenges for computational mechanics. The coupled model of Finite …
which leads to challenges for computational mechanics. The coupled model of Finite …
CFD based non-dimensional characterization of energy dissipation due to verticle slosh
We present the CFD based non-dimensional characterization of violent slosh induced
energy dissipation due a tank under vertical excitation. Experimentally validated CFD is …
energy dissipation due a tank under vertical excitation. Experimentally validated CFD is …
A particle-element contact algorithm incorporated into the coupling methods of FEM-ISPH and FEM-WCSPH for FSI problems
T Long, D Hu, G Yang, D Wan - Ocean Engineering, 2016 - Elsevier
Numerical simulation of FSI problems is one of the most important topics in computational
fluid dynamics. In this paper, a particle-element contact algorithm is incorporated into …
fluid dynamics. In this paper, a particle-element contact algorithm is incorporated into …
The use of artificial compressibility to improve partitioned semi-implicit FSI coupling within the classical Chorin–Témam projection framework
Over the last decade the classical Chorin–Témam projection method has been utilized to
address fluid-structure interaction in a semi-implicit manner. In previous studies the fluid …
address fluid-structure interaction in a semi-implicit manner. In previous studies the fluid …
A computationally efficient 3D finite‐volume scheme for violent liquid–gas sloshing
We describe a semi‐implicit volume‐of‐fluid free‐surface‐modelling methodology for flow
problems involving violent free‐surface motion. For efficient computation, a hybrid …
problems involving violent free‐surface motion. For efficient computation, a hybrid …
New solutions for axial flow convection in porous and partly porous cylindrical domains
F Arpino, A Carotenuto, N Massarotti… - International Journal of …, 2013 - Elsevier
In this work, fully explicit numerical solutions for axial flow convection in cylindrical domains,
completely or partially filled with a fluid saturated porous medium, are presented. Laminar …
completely or partially filled with a fluid saturated porous medium, are presented. Laminar …
An accelerated, fully-coupled, parallel 3D hybrid finite-volume fluid–structure interaction scheme
In this paper we propose a fast, parallel 3D, fully-coupled partitioned hybrid-unstructured
finite volume fluid–structure-interaction (FSI) scheme. Spatial discretisation is effected via a …
finite volume fluid–structure-interaction (FSI) scheme. Spatial discretisation is effected via a …
An all-Mach number HLLC-based scheme for multi-phase flow with surface tension
MY Oomar, AG Malan, RAD Horwitz, BWS Jones… - Applied Sciences, 2021 - mdpi.com
This paper presents an all-Mach method for two-phase inviscid flow in the presence of
surface tension. A modified version of the Hartens–Lax–van Leer Contact (HLLC) solver is …
surface tension. A modified version of the Hartens–Lax–van Leer Contact (HLLC) solver is …