Engineering:Moon pool
A moon pool is an equipment deployment and retrieval feature used by marine drilling platforms, drillships, diving support vessels, fishing vessels, marine research and underwater exploration or research vessels, and underwater habitats. [1]It is also known as a wet porch.[2] It is an opening found in the floor or base of the hull, platform, or chamber giving access to the water below. Because of its stable location, it safely allows technicians or researchers to lower tools and instruments into the sea.
Moon pools also provide shelter and protection so that even if the ship is in high seas or surrounded by ice, researchers can work in comfort rather than on a deck exposed to the elements.[3] A moon pool also allows divers, diving bells, ROVs, or small submersible craft to enter or leave the water easily and in a more protected environment.
Moon pools can be used in chambers below sea level, especially for the use of scuba divers, and their design requires more complex consideration of air and water pressure acting on the moon pool surface.
Origins
Moon pools were first used in the oil drilling industry given the remote offshore locations of oil fields (e.g. sea or in lakes). It has been used for drilling, production, storage and offloading to smaller vessels for transportation of oil. It is also built to pass drilling equipments into the water from a platform or drillship.[4][5] A moonpool supports the need of drill pipes to run vertically through the structure or hull.
The Glomar Explorer
The Hughes Glomar Explorer was a 50,500 long tons (51,300 t), 619-foot-long (189 m) ship constructed by the United States in the early 1970s for the recovery of a sunken Soviet submarine from the Pacific seabed. The design of the ship was broadly inspired by oil drilling ships and included a moon pool measuring 199 by 74 by 65 feet (61 m × 23 m × 20 m), into which the submarine was to be recovered, with the bottom of the moon pool then closed off by two gates that would allow the recovered vessel to be examined under cover and in dry conditions. This was a singular use of a moon pool and also possibly the largest dedicated moon pool constructed to date.
In underwater habitats
Very deep moon pools are used in underwater habitats—submerged chambers used by divers engaged in underwater research, exploration, marine salvage, and recreation. In this case, shown in part D of the diagram, there is no dry access between the chamber and the sea surface, and the moon pool is the only entry or exit to the chamber. Submerged chambers provide dry areas for work and rest without the need to ascend to the surface.[6] This kind of submerged chamber uses the same principles as the diving bell, except they are fixed to the seafloor and may be called a wet porch, wet room, or wet bell. Sometimes the term moon pool is used to mean the complete chamber, not just the opening in the bottom and the air–water interface.
The alternative to a moon pool in an underwater habitat is the lock-out chamber, which is essentially like a fixed submarine, maintaining internal air pressures lower than ambient sea pressure down to one atmosphere, with an airlock to enable entry and exit underwater. Underwater habitats may have connected chambers with moon pools and lock-out chambers.
Examples of underwater habitats with moon pools
In fishing vessels
Moon pools are becoming increasingly used on longline fishing vessels to allow for hauling of the gear in worse weather conditions. They also reduce the exposure of fish to air and improving quality. Along with bird scaring lines, shooting and hauling gear from a moon pool reduces the risk of fish falling off or being predated by birds.[9]
Gallery of types
See also
- Engineering:Diving bell – Chamber for transporting divers vertically through the water
- Engineering:Diving support vessel – Ship used as a floating base for professional diving projects
- Engineering:Underwater habitat – Human habitable underwater enclosure filled with breathable gas
References
- ↑ "Scientific moon pool". https://www.bas.ac.uk/polar-operations/sites-and-facilities/facility/rrs-sir-david-attenborough/science-facilities/scientific-moon-pool/.
- ↑ Sajjan, Sharanabasappa (June 2020). "Experimental Investigation of Moonpool shapes on a Ship with Forward Speed". Annual of Navigation. https://www.researchgate.net/publication/342231566.
- ↑ "Moonpool". https://www.revocean.org/vessel/moonpool/.
- ↑ Yakdav, Abhishek; Subramanian, V; Ananthakrishnan, P. (2022). "Numerical and experimental investigation of the effect of moonpool positioning on the hydrodynamics of floating drilling production storage and offloading vessel". Ships and Offshore Structures 17 (5): 973–991. doi:10.1080/17445302.2021.1889170. https://www.tandfonline.com/doi/abs/10.1080/17445302.2021.1889170.
- ↑ "Moon Pool". https://glossary.slb.com/en/Terms/m/moon_pool.aspx.
- ↑ Gregory Stone: "Deep Science". National Geographic Online Extra (Sept 2003). Retrieved 29 July 2007.
- ↑ US Navy: Naval Undersea Museum SEALAB page , retrieved 1 August 2007.
- ↑ "Aquarius Undersea Laboratory". https://aquarius.fiu.edu/dive-and-train/facilities-and-assets/aquarius-undersea-laboratory/index.html.
- ↑ "Long Line". https://www.seafish.org/responsible-sourcing/fishing-gear-database/gear/long-line/.
Original source: https://en.wikipedia.org/wiki/Moon pool.
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