The flow field generated by the towing of a semi-displacement hull, free to heave and pitch, is numerically investigated in the velocity range 18 34 Kn. The numerical code adopted is the in-house developed Xnavis, which is a general purpose unsteady RANS based solver; the solver is based on a Finite Volume approach together with a Chimera technique for overlapping grids and a Level Set approach to handle the air/water interface. The generated wave pattern shows many interesting features with an evident wave plunging near the hull bow, while the stern remains completely dry for velocities over 30 Kn. The numerical outcomes are discussed in terms of total resistance, sinka...
Due to their higher motion amplitudes and instabilities, numerical simulations of planing hulls usin...
This paper describes the Computational Fluid Dynamics (CFD) calculations that were completed to mode...
Dynamic Velocity Prediction Programs are taking an increasingly prominent role in high performance y...
In this paper an attempt has been made to assess the capability of numerical algorithm based on Reyn...
A commercial RANS code is used to investigate the multiphase flow field surrounding the KCS hull for...
This paper presents a series of RANSE-based seakeeping simulations on a 17m high-speed monohull. The...
The hydrodynamic investigation of a hull’s performance is a key aspect when designing a new prototyp...
The problem of predicting the motions of planing craft is extremely difficult. The planing hull mot...
A reliable investigation which allows an accurate prediction on seakeeping performance of a monotric...
The objective of this thesis was to investigate whether the hydrodynamic performance of the wide, bo...
Performance prediction is an important part of vessel design. Common methods for predicting planing ...
It is well known that the dynamic of the stepped hull in real scale is rather complex and it’s not e...
As a marine vehicle’s operational speed increases, hydrodynamic pressure plays an increasingly signi...
This work addresses the experimental and numerical study of a stepped planing hull and the related fl...
Copyright © 2018 by the International Society of Offshore and Polar Engineers (ISOPE) In the present...
Due to their higher motion amplitudes and instabilities, numerical simulations of planing hulls usin...
This paper describes the Computational Fluid Dynamics (CFD) calculations that were completed to mode...
Dynamic Velocity Prediction Programs are taking an increasingly prominent role in high performance y...
In this paper an attempt has been made to assess the capability of numerical algorithm based on Reyn...
A commercial RANS code is used to investigate the multiphase flow field surrounding the KCS hull for...
This paper presents a series of RANSE-based seakeeping simulations on a 17m high-speed monohull. The...
The hydrodynamic investigation of a hull’s performance is a key aspect when designing a new prototyp...
The problem of predicting the motions of planing craft is extremely difficult. The planing hull mot...
A reliable investigation which allows an accurate prediction on seakeeping performance of a monotric...
The objective of this thesis was to investigate whether the hydrodynamic performance of the wide, bo...
Performance prediction is an important part of vessel design. Common methods for predicting planing ...
It is well known that the dynamic of the stepped hull in real scale is rather complex and it’s not e...
As a marine vehicle’s operational speed increases, hydrodynamic pressure plays an increasingly signi...
This work addresses the experimental and numerical study of a stepped planing hull and the related fl...
Copyright © 2018 by the International Society of Offshore and Polar Engineers (ISOPE) In the present...
Due to their higher motion amplitudes and instabilities, numerical simulations of planing hulls usin...
This paper describes the Computational Fluid Dynamics (CFD) calculations that were completed to mode...
Dynamic Velocity Prediction Programs are taking an increasingly prominent role in high performance y...