StormGeo and Deep Sea Mooring Provides Advanced Response Forecasting
StormGeo and Deep Sea Mooring provides notifications of weather-related movements of floating offshore units and vessels undertaking complex marine operations. This innovative service will help customers save money and time, while enhancing planning and safety standards.
“We are delighted that we have this agreement with StormGeo,” comments Åge Straume, CEO of Deep Sea Mooring. “It means that together we can offer an excellent planning tool, enabling users to make early decisions regarding forthcoming marine operations and thus minimize the movement of vessels and helicopter decks. This will result in significant savings for our customers.”
The notifications are made possible through the combination of detailed weather forecasts and advanced hydrodynamic models, which can identify critical movements on floating offshore units. By doing so, recipients can be alerted to the actual consequence of the forecasted weather on vessels, rather than just the weather itself.
“This agreement with Deep Sea Mooring compliments and supports our ambition to deliver high quality services that facilitate optimum decision-making on weather-sensitive operations. In a time when the focus on cost saving and efficiencies are so great, it’s more important than ever to combine detailed weather information with optimal planning capabilities to execute critical offshore work,” notes Hogne Folkestad, VP Offshore at StormGeo.
StormGeo will publish and support the notifications, while Deep Sea Mooring will be responsible for the hydrodynamic models and all calculations of motion resulting from the expected weather.
In principle, this high-tech approach can be used for all marine operations. As an example, it is now possible to forecast movements and wind speeds on helicopter decks several days in advance. By doing so, it is possible to determine whether the conditions/movements are within the set landing criteria for helicopter traffic. As a result, the efficiency of planning and coordinating helicopter traffic could be significantly enhanced.
A further example is illustrated by floatels that utilize Dynamic Positioning (DP). The direction the floatel should have to minimize walkway movement can be calculated, thus increasing availability before disconnection. In addition, information regarding disconnection windows is delivered in advance, meaning the process can be undertaken safely during calm weather, rather than in worst case scenarios, waiting for automatic disconnection.
Other applications for the service encompass drilling operations and offshore lifting operations on floating units.
Folkestad and Straume conclude that customers will experience increased availability through the use of their technology, and have a better basis for planning, decision-making and performing secure operations. This, they stress, will be important in reducing operational expenditure.