The Influence of the Cuboid Float’s Parameters on the Stability of a Floating Building-Reference-Cited by-同舟云学术

The Influence of the Cuboid Float’s Parameters on the Stability of a Floating Building

Published:2020-09-01 Issue:3 Volume:27 Page:16-21
ISSN:2083-7429
Container-title:Polish Maritime Research
language:en
Short-container-title:

Author:

Karczewski Artur¹,Piątek Łukasz²

Affiliation:

1. Gdańsk University of Technology , Poland

2. Warsaw University of Technology , Department of Architectural and Urban Design , Poland

Abstract

Abstract Usually, the concept of sufficient stability of a floating structure is connected with the capacity to keep a small heel angle despite the moment of heeling. The variable responsible for these characteristics is the initial metacentric height, which is the relation between the hydrostatic features of the pontoon and the mass properties of the entire object. This article answers the questions of how heavy the floating system should be, what the minimum acceptable draft is, and whether it is beneficial to use internal fixed ballast. To cover various technologies, a theoretical model of a cuboid float with average density representing different construction materials was analysed. The results indicate that the common practice of using heavy and deep floating systems is not always reasonable. In the case of floating buildings, which, unlike ships, can be exploited only under small heel angles, the shape and width of the submerged part of the object may influence the stability more than the weight or draft.

Publisher

Walter de Gruyter GmbH

Subject

Mechanical Engineering,Ocean Engineering

Link

https://www.sciendo.com/pdf/10.2478/pomr-2020-0042

Reference22 articles.

1. 1. B.C. Building Code (2003): British Columbia Float Home Standard.

2. 2. City and Borough of Sitka, Alaska. (2019): Home Rule Charter of the City and Borough of Sitka. Chapter 19.15 Building Code for Float Homes.

3. 3. Danish Maritime Authority. (2007): Technical Regulation on the Stability, Buoyancy, etc. of Houseboats and Floating Structures. Retrieved from https://www.dma.dk/Vaekst/Rammevilkaar/Legislation/Pages/Technical-regulations.aspx.

4. 4. Department of Housing and Public Works. (2007): Queensland Development Code. MP 3.1 Floating Buildings. Retrieved from http://www.hpw.qld.gov.au/construction/BuildingPlumbing/Building/BuildingLawsCodes/QueenslandDevelopmentCode/Pages/QueenslandDevelopmentCodeCurrentParts.aspx.

5. 5. Flanagan B. (2003): The Houseboat Book. Universe, New York.

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