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https://doi.org/10.17818/NM/2023/1.3

Hydrodynamic Force of Resistance of Tourist Underwater Vehicle’s Bare Hull with Different Heads using OpenFOAM

Hassan Saghi ; University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture, Croatia; Hakim Sabzevari University, Department of Civil Engineering, Sabzevar, Iran
Joško Parunov orcid id orcid.org/0000-0002-8566-4927 ; University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture, Croatia


Puni tekst: engleski pdf 2.170 Kb

str. 11-22

preuzimanja: 264

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Sažetak

Power reduction is the central goal to maximize cruising duration of tourist underwater vehicles (UV) that can be achieved by shaping the hull. So, in this paper, hydrodynamic force of resistance of the tourist UV’s bare hull is analysed. A numerical model based on Computational Fluid Dynamics in OpenFOAM is developed to simulate the longitudinal movement of an UV in a viscous and incompressible fluid for the infinite water depth. Three head geometries, including both spherical heads (S-S), spherical bow and elliptical stern head (S-E), and UV with both elliptical heads (E-E) are compared. At the first step, the effects of the length-to-diameter ratio and forward speed is studied for the S-S UV. The mesh size is calibrated using Grid Convergence Index, provided by ASME, while the model validation is based on the results for cube and sphere as well as by comparison with resistance coefficient of a SUBOFF bare hull. S-E and E-E UVs are then analysed for typical length-to-diameter ratio, comparing their force of resistance to the S-S type. The elongated elliptical heads are in many cases found favourable compared to the spherical heads. The results of this study may be useful for the conceptual design of tourist UV and for verification of the complex numerical models that are necessary to account for the influence of appendages on the force of resistance of such innovative UV.

Ključne riječi

tourist underwater vehicle; bare hull; spherical head; elliptical head; force of resistance; OpenFOAM; Computational Fluid Dynamics

Hrčak ID:

294286

URI

https://hrcak.srce.hr/294286

Datum izdavanja:

27.1.2023.

Posjeta: 915 *