Offshore structures, which are placed in the ocean for the exploration and production of resourcesunderneath the ocean floor, are at the mercy of the environment they are subject to by nature. Theseconditions that the structures may face are the ocean waves, wind, tidal, swell and current.Earthquakes and Tsunami waves may also occur in the water in certain parts of the world. For thesurvival of these structures, the effects of the environments on them must be known by the designerof these structures and considered in their design specification and material selection.A ship must be able to float in a stable and upright position, move with sufficient speed and also ableto maneuver at sea in to accomplish its purpose of conveying materials through the ocean. Inaddition to this, a ship have to also sail in restricted waters and be able to withstand the rigors ofrough weather and wave impact. For a marine vehicle to be designed with these qualities or features,the knowledge of ship dynamics is imperatives. With a good knowledge of hydrostatics, a marine vehicle can be designed to float uprightly in calmwaters. However, ships and other marine vehicles rarely sail in calm water. Waves which are themain source of motions in a seaway, affects the performance of a ship. Thus, a successful design of amarine vehicle depends ultimately on its performance in a seaway. Unfortunately, marine vehiclesare designed based on calm water situation without consideration of the sea and weather conditionsprevailing over the rout the vehicle will operate.The marine physical environment generates winds, currents, and waves which are described bymathematical models. Statistical analysis is required to analyze the data. The loads from thesephenomenon are found by measurements, model testing, and calculations, using calibratedmathematical models (for example the Morison equations). The actions of winds, currents, andwaves generate horizontal and vertical forces, which serve as the basis for the design of positioningsystems, such as mooring systems and dynamic positioning (DP) systems.According to Gudmestad (2015), marine operation is an offshore activity performed from a floatinginstallation or a vessel engaged for a specific task in a marine sensitive environment. There are manytypes of marine operations, both in shallow waters, deep waters, and ultra-deep waters. Some of thetypes of marine operations are pipeline installation, pipeline towing, umbilical installations, drilling,well interventions, and coiled tubing intervention and equipment installation subsea. 1
Some common terms used in connection with maritime operations are:i. availability of the vessel/installationii. weather window when the vessel/installation can workiii. waiting on weather (WOW)iv. motion compensation andv. dropped objectsMetocean conditions refers to the combined effect of the meteorology and oceanography. As such,the metocean condition refers to a number of meteorological and oceanographic conditions. Thesefactors include: local surface wind, wind-generated local waves, swell (long-period waves) generatedby distant storms, surface current also generated from the local storms, energetic deep water currentsassociated with low frequency, large basin circulation, and non-storm-related currents, which aresite-specific, such as loop current in the Gulf of Mexico or coastal current in the Norwegian northernNorth Sea.This term paper is centred on discussing the influence of metocean conditions on marine operations.This study takes into accounts the effects of some environmental conditions, such as wave, current,tidal, wind and swel
Idiapho, C. (2020). Influence of Metocean Conditions on Marine Operation(s). Afribary. Retrieved from https://track.afribary.com/works/effects-of-meta-ocean-condition-lawal-m-eng
Idiapho, Clement "Influence of Metocean Conditions on Marine Operation(s)" Afribary. Afribary, 28 Jul. 2020, https://track.afribary.com/works/effects-of-meta-ocean-condition-lawal-m-eng. Accessed 15 Nov. 2024.
Idiapho, Clement . "Influence of Metocean Conditions on Marine Operation(s)". Afribary, Afribary, 28 Jul. 2020. Web. 15 Nov. 2024. < https://track.afribary.com/works/effects-of-meta-ocean-condition-lawal-m-eng >.
Idiapho, Clement . "Influence of Metocean Conditions on Marine Operation(s)" Afribary (2020). Accessed November 15, 2024. https://track.afribary.com/works/effects-of-meta-ocean-condition-lawal-m-eng