Commonly marine and offshore operations include towing, mooring, ballasting, lifting and lowering heavy loads, personnel transfer, surveying, inspection, and diving. •
Towing •
Moorings and
Anchors •
Lifting and setting heavy loads •
Personnel transfer at sea •
Underwater interventions,
diving,
underwater work systems,
remotely operated underwater vehicles and
remote manipulators •
Underwater concreting and grouting •
Surveying and
navigation • Temporary
buoyancy augmentation
Seafloor modifications The seafloor may be covered with level sediments that have been consolidated over the years and provide a stable platform, but this is often not the case, and the construction site may be uneven, covered with unconsolidated, weak sediment, lie on a slope, or be irregular, with rock outcroppings or scattered boulders. There two ways to manage an unsuitable substrate. In the past, most cases of offshore construction adapted the structure to suit the substrate, but the second method is often used for major land structures and can and has been used for shallow water harbor and coastal structures. Seafloor preparation can also have significant potential advantages for deep water. There is normally time available to prepare the site during the lead time for procurement and fabrication of the structure before installation. Seafloor modifications to improve performance of foundations are intended to provide a stable base of sufficient strength to support the structure and to resist failure and degradation for both a single extreme event and repetitive dynamic loads. In some cases, extensions to the foundations may be placed to protect the structure moving ice or ship collision. These operations may include: The site may be prepared by dredging, levelling and removal of obstructions. Soft material may be removed, consolidated or reinforced, and high areas of hard material and rock removed. Granular material such as crushed rock, gravel, and sand can be placed and leveled as a practicable and economical fill for a reasonably level and uniform support for structures, either across the whole site, in low areas, or as a replacement for previously removed soft materials. Sand piles and stone columns can be used to provide better bearing strength for weak soils like silts and clays, and are installed by drilling or driving a mandrel into the soil into which the coarser material is fed before forcing it out under pressure and removing the mandrel. The process is rapid where only small areas need to be improved. This method increases both bearing and shear resistance and can prevent liquefaction. Injection of cementitious material, following land-based grouting procedures, can be used to displace pore water and give a stronger substrate. The cementing pressures must displace the water yet not cause fracturing of the formation by channelization. Cement particles must be small enough to penetrate the interstices, and a wetting agent can be added to the grout to reduce viscosity. • Measures to prevent liquefaction of the substrate • Protection from scour
Installation of piles A pile or piling is a vertical or near vertical structural element of a deep foundation, driven or drilled deep into the ground at the building site. There are many reasons why a deep foundation may be preferred, such as large design loads, a poor soil at shallow depth, There are different terms used to describe different types of deep foundations including the pile (which is analogous to a pole), the pier (which is analogous to a column), drilled shafts, and caissons. Piles are generally driven into the ground in situ, and can be made out of timber, steel, reinforced concrete or prestressed concrete.
Harbour, river and estuary structures The most common type of harbour structure is the
quay or
marginal wharf intended for loading and unloading
containers.
Finger piers are commonly used for transfer of petroleum products, and
trestle supports are provided for access to loading platforms and wharves. Pile-supported structures consist of steel or concrete piles, driven into soft clays and sands of the seafloor, and usually carry a deck of reinforced concrete. The piles are spaced from 7 to 10 m apart for economy, with a load bearing capacity of 100 to 250 tons each. Steel piles are either H-section or tubular, with diameters from 400 to 600 mm. Tubular piles are easier to protect from corrosion. Water depths for container and cargo ships are about 16 m, with a designed pile capacity of about 200 to 400 tons, so in most cases the pile length will be between 30 and 40 m. Larger container ships may need 20 m of water alongside, and may need piles of 40 to 50 m long to adequately support vertical crane load, and 1 m diameter for lateral stiffness. Petroleum terminals need more depth, usually about 23 m, so the piles are larger and more heavily loaded. River structures include locks, low-level dams, overflow structures, and flood walls. Historically, these have usually been constructed behind sheet pile cofferdams to allow the worksite to be dewatered, so that conventional civil engineering construction methods can be used.
Coastal structures •
Mole (architecture) •
Seawall •
Causeway •
Dyke (embankment) •
Groyne Offshore platforms ian coast is a
semi-submersible platform. in the North Sea An offshore platform is usually a large structure with facilities to extract and process
petroleum and
natural gas that lie in rock formations beneath the
seabed. Many platforms also have facilities to accommodate the workers, although it is also common to have a separate accommodation platform bridge linked to the production platform. Most platforms engage in activities on the
continental shelf, though they can also be used in lakes, inshore waters, and inland seas. Depending on the circumstances, the platform may be
fixed to the ocean floor, consist of an
artificial island, or
float. In some arrangements the main facility may have storage facilities for the processed oil. Remote
subsea wells may also be connected to a platform by flow lines and by
umbilical connections. These sub-sea facilities may include of one or more subsea wells or manifold centres for multiple wells.
Steel offshore platforms Concrete offshore platforms Permanently floating structures ==Other applications==