Offshore structures are designed to resist the impact of the extreme wave. Shell EP Projects desires a computer model that is able to simulate the impact of the design wave on gravity based offshore platforms, such as the Sakhalin PA-B platform. Comflow is a numerical model that simulates fluid flow, by solving the Navier-Stokes equations using the improved Volume-of-Fluid method. The wave inflow is prescribed at a side boundary of the Comflow domain. Shell uses the Newwave theory to prescribe the wave group that contains the design wave. The shape of the wave train that contains the design wave is important for the impact on the structure as it influences wave run up and reflection; possibly causing the wave to slam against the bottom of a...
This paper describes a study of simulation of wave loading on a SPAR platform. The method used for t...
Physical and numerical large-scale wave basin (LSWB) modeling of fluid-structure interaction (FSI) a...
Numerical Simulation of Two-Phase Flow in Offshore Environments Rik Wemmenhove Weather conditions on...
Abstract. The simulation tool ComFLOW, developed for accurate predictions of hydro-dynamic wave load...
The simulation tool ComFLOW, developed for accurate predictions of hydrodynamic wave loading, is bas...
This Master Thesis deals with non-linear wave impacts on monopile structures by introducing a potent...
This Master Thesis deals with non-linear wave impacts on monopile structures by introducing a potent...
The Offshore Industry is one of the most challenging industries. Offshore vessels must survive all w...
For the design of structures we need to select design safety levels to ensure structures shall safel...
Good wind conditions make Dogger Bank a well suited site for offshore wind industry. The harsh envir...
There is a desire to assess extreme wave loads on offshore structures like Floating Production, Sto...
Offshore structures need to survive whilst being exposed to extreme wave events, which can potential...
A simplified wave impact load model to predict the additional impact (Ringing) load due to a high fr...
Offshore structures are required to survive in extreme wave environments. Historically, the design o...
This paper describes a study of simulation of wave loading on a SPAR platform. The method used for t...
Physical and numerical large-scale wave basin (LSWB) modeling of fluid-structure interaction (FSI) a...
Numerical Simulation of Two-Phase Flow in Offshore Environments Rik Wemmenhove Weather conditions on...
Abstract. The simulation tool ComFLOW, developed for accurate predictions of hydro-dynamic wave load...
The simulation tool ComFLOW, developed for accurate predictions of hydrodynamic wave loading, is bas...
This Master Thesis deals with non-linear wave impacts on monopile structures by introducing a potent...
This Master Thesis deals with non-linear wave impacts on monopile structures by introducing a potent...
The Offshore Industry is one of the most challenging industries. Offshore vessels must survive all w...
For the design of structures we need to select design safety levels to ensure structures shall safel...
Good wind conditions make Dogger Bank a well suited site for offshore wind industry. The harsh envir...
There is a desire to assess extreme wave loads on offshore structures like Floating Production, Sto...
Offshore structures need to survive whilst being exposed to extreme wave events, which can potential...
A simplified wave impact load model to predict the additional impact (Ringing) load due to a high fr...
Offshore structures are required to survive in extreme wave environments. Historically, the design o...
This paper describes a study of simulation of wave loading on a SPAR platform. The method used for t...
Physical and numerical large-scale wave basin (LSWB) modeling of fluid-structure interaction (FSI) a...
Numerical Simulation of Two-Phase Flow in Offshore Environments Rik Wemmenhove Weather conditions on...