A Zonal CFD Approach for Fully Nonlinear Simulations of Two Vessels in Launch and Recovery Operations
Lead Research Organisation:
Manchester Metropolitan University
Department Name: Sch of Computing, Maths and Digital Tech
Abstract
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Publications
Lin Z
(2021)
A Finite Volume Based Fully Nonlinear Potential Flow Model for Water Wave Problems
in Applied Ocean Research
Ma Z
(2018)
An overset mesh based multiphase flow solver for water entry problems
in Computers & Fluids
Lin Z
(2021)
Simulation of Steep Focused Wave Impact on a Fixed Cylinder Using Fully Nonlinear Potential Flow and Navier-Stokes Solvers
in International Journal of Offshore and Polar Engineering
Chen H
(2020)
CFD Simulation of Wave Energy Converters in Focused Wave Groups Using Overset Mesh
in International Journal of Offshore and Polar Engineering
Martínez-Ferrer P
(2018)
Numerical Simulation of Wave Slamming on a Flap-Type Oscillating Wave Energy Device
in International Journal of Offshore and Polar Engineering
Ransley E
(2019)
A Blind Comparative Study of Focused Wave Interactions with a Fixed FPSO-like Structure (CCP-WSI Blind Test Series 1)
in International Journal of Offshore and Polar Engineering
Martínez-Ferrer P
(2018)
An efficient finite-volume method to study the interaction of two-phase fluid flows with elastic structures
in Journal of Fluids and Structures
Chen H
(2024)
Analysis of Convergence Behavior for the Overset Mesh Based Numerical Wave Tank in openfoam
in Journal of Offshore Mechanics and Arctic Engineering
Chen H
(2019)
Application of an overset mesh based numerical wave tank for modelling realistic free-surface hydrodynamic problems
in Ocean Engineering
Martínez-Ferrer P
(2018)
Improved numerical wave generation for modelling ocean and coastal engineering problems
in Ocean Engineering
Description | A new CFD code based on the overset meshing technique has been developed and applied to study the interaction between two boat of different sizes under high sea states. |
Exploitation Route | The findings from the study could be used by the relevant industry for an improved design of products and safer operations. |
Sectors | Aerospace Defence and Marine Energy |
Description | The impact of this work is recorded against grant ref EP/N008847/1. |
Sector | Aerospace, Defence and Marine,Energy |
Description | BAE Systems |
Organisation | BAE Systems |
Department | BAE Systems Maritime – Naval Ships |
Country | United Kingdom |
Sector | Private |
PI Contribution | Developing CFD codes for modeling hydrodynamics during marine launch and recovery operations. |
Collaborator Contribution | Providing data for the geometry and dimensions of the vessels to be used in the modeling work. |
Impact | None at the moment. |
Start Year | 2015 |
Title | OpenFOAM based CFD model for wave structure interaction simulations |
Description | The overset mesh solver in OpenFOAM has been further developed for modelling wave interaction with floating offshore structures. |
Type Of Technology | Software |
Year Produced | 2020 |
Impact | The code has been adopted and further developed for other EPSRC funded projects. |