Add to ORKGWe present a model for ship hydrodynamics simulations currently under development at SISSA. The model employs potential flow theory and fully nonlinear free surface boundary conditions. The spatial discretization of the equations is performed by means of a collocation BEM. This gives rise to a Differential Algbraic Equations (DAE) system, solved using an implicit BDF scheme to time advance the solution. The model has been implemented into a C++ software able to automatically generate the computational grids from the CAD geometry of the hull. Numerical results on Kriso KCS and KVLCC2 hulls are presented and discussed
A ship traveling in irregular sea with a steady forward speed is a classical hydrodynamics problem w...
We present an innovative numerical discretization of the equations of inviscid potential flow for th...
Computations of highly nonlinear free-surface flows, such as around arbitrary and complex hull forms...
We present a model for ship hydrodynamics simulations currently under development at SISSA. The mode...
We present a model for ship hydrodynamics simulations currently under development at SISSA. The mode...
We present the results of a model for ship fluid-structure interaction simulations based upon the po...
We present the results of a model for ship fluid-structure interaction simulations based upon the po...
We present the results of a model for ship fluid-structure interaction simulations based upon the po...
In this contribution, we present preliminary results of a model for the simulation of three dimensio...
In this contribution, we present preliminary results of a model for the simulation of three dimensio...
In this contribution, we present preliminary results of a model for the simulation of three dimensio...
We present a model for the fast evaluation of the total drag of ship hulls operating in both wet and...
We present a model for the fast evaluation of the total drag of ship hulls operating in both wet and...
We present a model for the fast evaluation of the total drag of ship hulls operating in both wet and...
The paper presents an algorithm for a non-linear computation of irrotational flow fields with free s...
A ship traveling in irregular sea with a steady forward speed is a classical hydrodynamics problem w...
We present an innovative numerical discretization of the equations of inviscid potential flow for th...
Computations of highly nonlinear free-surface flows, such as around arbitrary and complex hull forms...
We present a model for ship hydrodynamics simulations currently under development at SISSA. The mode...
We present a model for ship hydrodynamics simulations currently under development at SISSA. The mode...
We present the results of a model for ship fluid-structure interaction simulations based upon the po...
We present the results of a model for ship fluid-structure interaction simulations based upon the po...
We present the results of a model for ship fluid-structure interaction simulations based upon the po...
In this contribution, we present preliminary results of a model for the simulation of three dimensio...
In this contribution, we present preliminary results of a model for the simulation of three dimensio...
In this contribution, we present preliminary results of a model for the simulation of three dimensio...
We present a model for the fast evaluation of the total drag of ship hulls operating in both wet and...
We present a model for the fast evaluation of the total drag of ship hulls operating in both wet and...
We present a model for the fast evaluation of the total drag of ship hulls operating in both wet and...
The paper presents an algorithm for a non-linear computation of irrotational flow fields with free s...
A ship traveling in irregular sea with a steady forward speed is a classical hydrodynamics problem w...
We present an innovative numerical discretization of the equations of inviscid potential flow for th...
Computations of highly nonlinear free-surface flows, such as around arbitrary and complex hull forms...