This chapter presents an overview of some computational methods for the analysis of problems in ship hydrodynamics. Attention is focused on the description of stabilized finite element formulations derived via a finite increment calculus (FIC) procedure. Both arbitrary Lagrangian–Eulerian (ALE) and fully Lagrangian forms are presented. Details of the treatment of the free-surface waves and the interaction between the ship structure and the sea water are given. Potential flow formulations for seakeeping analysis and calculation of the added resistance in waves are also described. Examples of application of the computational methods presented to a variety of ship hydrodynamics and related problems are given.Peer Reviewe
An unstructured finite element solver to evaluate the ship‐wave problem is presented. The scheme use...
The inherent difficulty in the modelling of hydrodynamic problems consists in the presence of the un...
This paper shows a step forward in the development of a stabilized method for solving the Reynolds e...
This chapter presents an overview of some computational methods for the analysis of problems in ship...
This chapter presents an overview of some computational methods for the analysis of problems in ship...
This chapter presents an overview of some computational methods for the analysis of problems in ship...
This chapter presents an overview of some computational methods for the analysis of problems in ship...
We present a general formulation for incompressible fluid flow analysis using the finite element met...
Abstract. This paper presents a step forward in the formulation for incompressible fluid flow analys...
We present a general formulation for incompressible fluid flow analysis using the finite element met...
The development of mathematical modelling to describe free-surface potential ow around ships and oat...
This paper shows a step forward in the development of a stabilized method for solving the Reynolds e...
The objective of this thesis is the research on numerical algorithms to develop numerical tools to s...
The development in the construction of unconventional ships and the implementation of lightweight ma...
The problem of real-time simulation of ocean surface waves, ship movement and the coupling in betwee...
An unstructured finite element solver to evaluate the ship‐wave problem is presented. The scheme use...
The inherent difficulty in the modelling of hydrodynamic problems consists in the presence of the un...
This paper shows a step forward in the development of a stabilized method for solving the Reynolds e...
This chapter presents an overview of some computational methods for the analysis of problems in ship...
This chapter presents an overview of some computational methods for the analysis of problems in ship...
This chapter presents an overview of some computational methods for the analysis of problems in ship...
This chapter presents an overview of some computational methods for the analysis of problems in ship...
We present a general formulation for incompressible fluid flow analysis using the finite element met...
Abstract. This paper presents a step forward in the formulation for incompressible fluid flow analys...
We present a general formulation for incompressible fluid flow analysis using the finite element met...
The development of mathematical modelling to describe free-surface potential ow around ships and oat...
This paper shows a step forward in the development of a stabilized method for solving the Reynolds e...
The objective of this thesis is the research on numerical algorithms to develop numerical tools to s...
The development in the construction of unconventional ships and the implementation of lightweight ma...
The problem of real-time simulation of ocean surface waves, ship movement and the coupling in betwee...
An unstructured finite element solver to evaluate the ship‐wave problem is presented. The scheme use...
The inherent difficulty in the modelling of hydrodynamic problems consists in the presence of the un...
This paper shows a step forward in the development of a stabilized method for solving the Reynolds e...