Journal of Navigation and Port Research (한국항해항만학회지)

Korean Institute of Navigation and Port Research (한국항해항만학회)
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A Study on the Hydrostatic Mooring Stability of Submerged Floating Ellipsoidal Habitats

  • Pak, Sang-Wook (Graduate School of Korea Maritime & Ocean University) ;
  • Lee, Han-Seok (Division of Architecture and Ocean Space, Korea Maritime & Ocean University) ;
  • Park, Jin (Graduate School of Korea Maritime & Ocean University)
  • Received : 2019.07.23
  • Accepted : 2019.10.31
  • Published : 2019.10.31
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Abstract

Underwater architecture in providing a comfortable living space underwater is mandated to survive prevailing environmental loads, especially hydrostatic ambient water pressure exerted on the structure of individual habitat hulls at depth and hydrodynamic fluctuation of external forces that perturb the postural equilibrium and mooring stability of the underwater housing system, for which the design including the hull shape and mooring system constraint the responses. In this study, the postural stability of a proposed underwater floating housing system with three vertically connected ellipsoidal-shape habitat hulls of different sizes are theorized and calculated for hydrostatic stability, using MATLAB in the volumetric integration of a hull and the weight of operational loads under assumed scenarios. The assumptions made in the numerical method to estimate the stability of the habitat system include the fixed weight of the hulls, and their adjustable loads within operational limits for the set meteorological oceanic conditions. The purpose of this study was to numerically manipulate a) The buoyancy and b) The adjusted center of mass of the system within the range of designed external and internal load changes, by which the effective mooring system capability and postural equilibrium requirements were argued with the quantitative analysis.

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References

  1. Aung, Htay(2007), "An analysis of the study of mechanical properties and microstructural relationship of HSLA steels used in ship hulls", World Maritime University, Maritime Affairs, MS Dissertation.
  2. Bitterman, Noemi(2013), "'Aquatourism': submerged tourism, a developing area", Current Issues in Tourism, http://dx.doi.org/10.1080/13683500.2013.811222.
  3. Butler, W. P.(2004), "Caisson disease during the construction of the Eads and Brooklyn Bridges: A review.", The Undersea and Hyperbaric Medical Society, Vol. 31, No. 4-Historic Caisson Disease.
  4. Dodde, Karin et al.(2017), "Diving Heritage", http://www.divingheritage.com
  5. Fossen, Thor I.(2002), Marine Control Systems: Guidance, Navigation and Control of Ships, Rigs and Underwater Vehicles.
  6. Hencken, Randolph et al.(2013), "Seasteading implementation plan Final report", https://www.seasteading.org/floating-city-project/.
  7. KIOST(2016), "Research on Technology development for Seabed Base Construction and Operation", BSPE9944P-11146-2.
  8. Lee, H. S. et. al, translator.(2000), Ocean Architecture dictionary by Architectural Institute of Japan, Kimoondang, Stability, pp. 80-82.
  9. Lothe, A., et al.(2015) "Bjornafjorden submerged floating tube bridge: sea state simulations." Norconsult AS, Trondheim, Norway.
  10. Sohn, K.(2014), Motion and manoeuvrability of marine vehicles.
  11. Wikipedia(2019), "History of submarines", https://en.wikipedia.org/wiki/History_of_submarines.
  12. Wikipedia(2019), "Metacentric Height", https://en.wikipedia.org/wiki/Metacentric_height.