2013
DOI: 10.2534/jjasnaoe.18.17
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Computation of Propeller-Hull Interaction using Simple Body-Force Distribution Model around Series 60 CB = 0.6

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Cited by 8 publications
(5 citation statements)
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“…By the Computational Fluid Dynamics (CFD) method, the viscous flow computation of the ship hull is normally coupled with some propeller programs either by viscous method or by the potential method. In the viscous model, the propeller, hull, and rudder geometries are all resolved directly in the RANS grid in which the solid bodies are considered as no-slip faces and all of these become parts of the viscous flow solution [10].…”
Section: ) Hull and Propeller Interactionmentioning
confidence: 99%
“…By the Computational Fluid Dynamics (CFD) method, the viscous flow computation of the ship hull is normally coupled with some propeller programs either by viscous method or by the potential method. In the viscous model, the propeller, hull, and rudder geometries are all resolved directly in the RANS grid in which the solid bodies are considered as no-slip faces and all of these become parts of the viscous flow solution [10].…”
Section: ) Hull and Propeller Interactionmentioning
confidence: 99%
“…The tail blocks are used to describe the tanker stern part in detail to resolve wake field in high accuracy. The hub blocks are used to produce the rotational hub effect together with the current propeller model and the importance of a rotating hub has been explained by Win et al 2) . The wake refinement block is used with very fine mesh in order to capture the accelerated flow downstream of the propeller.…”
Section: Computational Domain Grids and Boundary Conditionsmentioning
confidence: 99%
“…By the Computational Fluid Dynamics (CFD) method, the viscous flow computation of the ship hull is normally coupled with some propeller programs either by viscous method or by potential flow method. Compared to the high cost and complexity of viscous flow method and to some well-known body-force models, the propeller model utilized in this paper has been proved as the easier and effective body-force model in predicting the complicated ship wake flow by Win et al 1)2) The advantages of the propeller model which is computed by the quasi-steady blade element theory can be summarized as; (1) the coding is very simple (2) no special type of grids is required and any grid can be used to compute the body forces (3) it is unnecessary to extract the effective wake for the inflow to the propeller blade from the total flow field. The effective wake usually is required in potential theory based body-force models.…”
Section: Introductionmentioning
confidence: 99%
“…There are currently two methods for simulating the rotating propeller behind the ship, namely the discretised rotating propeller method and the body force propeller (BFP) method, used by Carrica et al [12], Tu et al [13], Win et al [14] and Gokce et al [15]. The latter method is simpler and faster at computing the self-propulsion point than the discretised rotating propeller method [15][16][17].…”
Section: Introductionmentioning
confidence: 99%