A review of advances in modeling hydrodynamics and hydroelasticity for very large floating structures
Since the introduction of the concept of very large floating structure (VLFS), research in this
area has become increasingly intensive. VLFSs have the potential to serve various functions …
area has become increasingly intensive. VLFSs have the potential to serve various functions …
Entirely Lagrangian meshfree computational methods for hydroelastic fluid-structure interactions in ocean engineering—Reliability, adaptivity and generality
The paper presents a concise review on latest advances related to development of entirely
Lagrangian meshfree computational methods for hydroelastic fluid-structure interactions …
Lagrangian meshfree computational methods for hydroelastic fluid-structure interactions …
A 3D SPH-based entirely Lagrangian meshfree hydroelastic FSI solver for anisotropic composite structures
This paper presents the first 3D entirely Lagrangian meshfree hydroelastic FSI (Fluid-
Structure Interaction) solver for reproduction of incompressible fluid flows interacting with …
Structure Interaction) solver for reproduction of incompressible fluid flows interacting with …
Improved element-particle coupling strategy with δ-SPH and particle shifting for modeling sloshing with rigid or deformable structures
Liquid sloshing flows interacting with deformable structures are difficult to be numerically
simulated due to the co-existence of moving fluid-structure interfaces and breaking free …
simulated due to the co-existence of moving fluid-structure interfaces and breaking free …
An SPH-based fully-Lagrangian meshfree implicit FSI solver with high-order discretization terms
In this paper, a novel SPH (Smoothed Particle Hydrodynamics)-based implicit structure
model as well as its refined coupled fully-Lagrangian meshfree FSI (Fluid-Structure …
model as well as its refined coupled fully-Lagrangian meshfree FSI (Fluid-Structure …
Partitioned MPS-FEM method for free-surface flows interacting with deformable structures
In this paper, the partitioned MPS-FEM method is employed for two-dimensional and three-
dimensional free surface flow interacting with deformable structures. The discretization of …
dimensional free surface flow interacting with deformable structures. The discretization of …
MPS–FEM coupled method for 3D dam-break flows with elastic gate structures
In this paper, the MPS–FEM coupled method is applied for the three-dimensional (3D) dam-
break flow with elastic gate, where the Moving Particle Semi-implicit (MPS) method and the …
break flow with elastic gate, where the Moving Particle Semi-implicit (MPS) method and the …
An implicit SPH-based structure model for accurate fluid–structure interaction simulations with hourglass control scheme
This work is dedicated to development of an implicit SPH (Smoothed Particle
Hydrodynamics)-based structure model as well as its integrated purely Lagrangian …
Hydrodynamics)-based structure model as well as its integrated purely Lagrangian …
Perspectives of Peridynamic Theory in Wind Turbines Computational Modeling
The applications of wind turbines are consistently increasing across the globe. Competent
and sustainable wind energy harnessing inherently requires the implementation of optimal …
and sustainable wind energy harnessing inherently requires the implementation of optimal …
Moving particle semi-implicit method coupled with finite element method for hydroelastic responses of floating structures in waves
In this paper, the Moving Particle Semi-implicit (MPS) method and Finite Element Method
(FEM) coupling computational method is applied to solve the problem of hydroelastic …
(FEM) coupling computational method is applied to solve the problem of hydroelastic …