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Hydrodynamic Analysis of trimaran vessels

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Javanmardi M. R., Jahanbakhsh E., Seif M. S., Sayyaadi H.

Polish Maritime Research

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2008

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tom 15

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nr 1

Trimaran vessels are developed for different applications and hydrodynamic behavior of such vessels is different than usual mono-hulls. In this paper hydrodynamic resistance and maneuvering of a trimaran with Wigley body form are investigated. The effects of outriggers position in four different longitudinal and two transverse locations are studied. For hydrodynamic simulations a CFD code has been developed and used. This code is capable for simulating three dimensional, time dependent, two phases, viscous flowcoupled with rigid body motion. Formulation and solution algorithm are described in detail. Different case studies have been performance and numerical results have shown good agreement with experimental data. Based on resistance and maneuvering simulation of the trimaran vessels different conclusion are made. The results show that positions of outriggers have great effect on resistance and maneuverability of trimaran. The present method can be further employed to investigate other hydrodynamic qualities of trimaran vessels

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An experimental study of interceptor's effectivennes on hydrodynamic performance of high-speed planing crafts

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Karimi M. H., Seif M. S., Abbaspoor M.

Polish Maritime Research

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2013

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tom 20

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nr 2

Trim control mechanisms such as interceptors and trim ﬂaps have been widely used in recent years in highspeed crafts for ride and trim control. In spite of their extensive application, a few studies investigating the impact of interceptors on planing craft performance, have been published. In the present study, the impact of interceptors on planing crafts hydrodynamic quality is investigated through application of an experimental method. Two scaled-down models of high-speed planing mono-hull and catamaran are tested with and without interceptors in calm water at different heights of the interceptors to investigate the effect of interceptors on drag reduction of the models. The ﬁrst one is a scaled-down model of 11 m planing mono-hull boat and the test was conducted at the towing tank of Sharif University of Technology, Iran. The second one is a scaled-down model of 18 m planing catamaran boat and the test was conducted at the towing tank of Krylov Shipbuilding Research Institute (KSRI), Russia. The experimental results show a remarkable drag reduction of up to 15% for mono-hull model and up to 12% for catamaran model over the wide speed range of the models

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Drag force on a flat plate in cavitating flows

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Seif M. S., Asnaghi A., Jahanbakhsh E.

Polish Maritime Research

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2009

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tom 16

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nr 3

The present study focuses on the simulation of two dimensional unsteady cavitating ﬂows. For simulation of unsteady behaviors of cavitation which have practical applications, the development of unsteady PISO algorithm based on the non-conservative approach is utilized. For multi-phase simulation, single-ﬂuid Navier–Stokes equations, along with the volume fraction transport equation, are employed. The bubble dynamics model is utilized to simulate phase change between vapor and liquid phases of the water. Unsteady simulation of cavitation around NACA66(MOD) and supercavitation around a ﬂat plate normal to ﬂow direction are performed to clarify accuracy of presented model. Numerical results and comparisons with experimental data are provided. The accuracy is good, and it is possible to apply this method to more complex shapes

Ograniczanie wyników

3 Polish Maritime Research

3 Seif M. S.

2 Jahanbakhsh E.

1 Abbaspoor M.

1 Asnaghi A.

1 Javanmardi M. R.

1 Karimi M. H.

1 Sayyaadi H.

1 2013

1 2009

1 2008

Hydrodynamic Analysis of trimaran vessels

An experimental study of interceptor's effectivennes on hydrodynamic performance of high-speed planing crafts

Drag force on a flat plate in cavitating flows