Port and vessel operators seek efficient, safe operations at minimum costs for their new or existing marine facilities.
Moving ships and berths can often cause unsafe situations in ports and can result in significant downtime. Understanding how a moored vessel responds to its environment and mitigating these effects can ultimately make the difference between a profitable port and a costly one.
Supporting you all the way
Royal HaskoningDHV can help calculate and model the dynamic behaviour of moored vessels, providing valuable insight and advice into a specific situation.
Analysis that delivers
Powerful mooring analysis software was first made available in the industry in 1997, and since then, we have helped our clients to understand and optimise the design of marine developments. The methodology that we use is called Dynamic Mooring Analysis (DMA).
Using this analysis, our specialists assist our clients to optimise their marine facilities, which can help result in a reduction of CAPEX, the optimisation of existing marine infrastructure (including predicting the uptime of a facility), as well as increased cargo-handling efficiency. It also enables us to increase understanding of limits to reduce operational expenditure, increase safety and investigate incidents effectively.
Our Mooring Analysis and Optimisation team is dedicated to help you with:
- optimisation of port layout
- comparison of mooring systems
- design of mooring layouts
- structural design of mooring facilities
- analysis of vessel movements
- uptime analysis and improvement
To improve the mooring Royal HaskoningDHV uses innovative mooring system system likes Cavotec MoorMaster™ and ShoreTension®. Cavotec MoorMaster™ is a vacuum-based automated mooring technology that eliminates the need for conventional mooring lines. ShoreTension® is a flexible stand-alone mooring system based on a permanent tension of mooring lines without the need for constant external energy. Both systems reduce the movements of a moored vessel which can be caused by strong winds, currents or passing vessels – and with that, it also reduces the down-time of the terminal.
- Paper: Less=moor: a time-efficient computational tool to assess the behavior of moored ships in waves
- Paper: Behaviour of a Moored LNG Ship in Swell Waves
- Paper: Calculations of the Motions of Ship Moored With Moormaster™ Units, Presented at PIANC MMX Congress, Liverpool UK 2010
Software we use
Services within this area
- Dock and Lock Gates
- Dry Docks
- DSEAR/ATEX and Hazardous Zone Classification
- Floating Dock Facilities
- Hazardous Installations
- Health and Safety: Improving safety culture
- Land Easement and Acquisition
- License to Operate
- Marine Structures and Pipelines
- Maritime Geotechnical Engineering
- Maritime: Mechanical and Electrical Services
- Oil Spill Modelling
- Port Master Planning
- Process Safety Management
- Protected Storage Engineering
- Safety: External and Integral Safety
- Seismic Design and Engineering