Experimental and Numerical Investigation of Mooring Systems for Offshore Engineering
A special issue of Journal of Marine Science and Engineering (ISSN 2077-1312). This special issue belongs to the section "Coastal Engineering".
Deadline for manuscript submissions: closed (10 May 2024) | Viewed by 1591
Special Issue Editors
Interests: ocean engineering; floating structures; mooring system; riser; floating offshore wind turbine; wave energy converter; model test; nonlinear dynamic; artificial neural network
Interests: mooring; hydrodynamics; floating structures; wind and wave energy; motion control
Special Issues, Collections and Topics in MDPI journals
Interests: ocean engineering; floating structures; mooring system; riser; floating offshore wind turbine; wave energy converter; model test; nonlinear dynamic; artificial neural network
Special Issue Information
Dear Colleagues,
Background: The mooring system provides a reliable way to position the floating structures in a certain region for the resource development of ocean engineering. There are two main topics on the mooring system. The first is the study of the mooring line mechanics and characteristics, such as the mechanical analysis method, the polyester line material experiments, and high-quality chain tests. The other is the interaction between the floating structures and the mooring system. The coupling will lead to strong nonlinearity in the model tests and numerical research areas.
Aim and scope: The purpose of the invited Special Issue is to publish the most exciting research with respect to the mooring system numerical analysis and experiments for demonstrating a trend of concrete studies with numerical research and experiments in combination.
History: Since 1950, many experiments are carried out in model basins. Numerous valuable theories are proposed and make a contribution to now, such as the Morison equation and Cummins coupling motion equation. Meanwhile, the model test will be a powerful instrument for the development of ocean engineering.
Cutting-edge research: Now the dynamic characteristics of deepwater mooring system is still a huge obstacle to correctly simulating in the wave basin. At the same time, with the development of renewable structures, such as Floating Offshore Wind Turbines (FOWT), Wave Energy Converters (WEC), Farming Cages, and Offshore Photovoltaic (OPV) structures, the mooring system becomes varied, which is a new challenge for the mooring simulations and model tests. In recent years, the artificial neural network has rapid development, which is also a valuable tool to solve some problems of mooring systems.
The mooring system plays an important role in the exploration of oil, gas and renewable resources in offshore engineering. It provides a positioning capacity to make sure the platforms are within a designed safe region. The mooring line may consist of chains, steel wire ropes, and polyester lines, together with some weights and buoys. Each of them has unique static and dynamic properties, even visco-elastic material characteristics. Additionally, usually, the mooring system works with a floating structure, like Floating Production Storage and Offloading Unit (FPSO), SEMI platform, Floating Offshore Wind Turbine (FOWT), Wave Energy Converter (WEC), Farming cage, Offshore Photovoltaic (OPV), etc. The coupling response between them shows a strong nonlinear relationship. So numerical and experimental studies are encouraged to improve the related developments.
The Special Issue focuses on the static and dynamic response of the mooring system and its connected floating structures with a numerical and experimental study. In this regard, this Special Issue aims to present the latest research and development in Experimental and Numerical Investigation of Mooring Systems for Offshore Engineering. High-quality papers are encouraged for publication regarding, but not limited to, the topics below.
- Model tank experiments on mooring/cable system
- Material experiments on synthetic mooring lines
- Mechanical experiments on single point mooring system
- Numerical research on mooring system
- Hydrodynamic Interaction between mooring system and floating structures
- Artificial neural network for tension estimation
Dr. Gang Ma
Dr. Dongsheng Qiao
Dr. Hongwei Wang
Prof. Dr. Antonio Carlos Fernandes
Guest Editors
Manuscript Submission Information
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Keywords
- mooring model test
- floating structures
- truncation with dynamic similarity
- numerical simulation method
- artificial neural network
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