Open Journal of Fluid Dynamics

Open Journal of Fluid Dynamics

ISSN Print: 2165-3852
ISSN Online: 2165-3860
www.scirp.org/journal/ojfd
E-mail: ojfd@scirp.org
"Numerical Analysis of Turbulent Fluid Flow and Drag Coefficient for Optimizing the AUV Hull Design"
written by João Victor Nunes de Sousa, Antônio Roberto Lins de Macêdo, Wanderley Ferreira de Amorim Junior, Antonio Gilson Barbosa de Lima,
published by Open Journal of Fluid Dynamics, Vol.4 No.3, 2014
has been cited by the following article(s):
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[7] Computational Fluid Dynamics Study of the Hydrodynamic Characteristics of a Torpedo-Shaped Underwater Glider
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[9] The hydrodynamic characteristics of Autonomous Underwater Vehicles in rotating flow fields
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[10] Modeling and Fuzzy Decoupling Control of an Underwater Vehicle-Manipulator System
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[11] Design, Construction, and Control for an Underwater Vehicle Type Sepiida
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[12] On the Study of Autonomous Underwater Vehicles by Computational Fluid-Dynamics
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[13] Analysis of Attack Angle Effect on Flow Characteristics Around Torpedo-Like Geometry Placed Near the Free-Surface via CFD
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[14] Conceptual Development of Sensing Module Applied to Autonomous Radiation Monitoring System for Marine Environment
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[15] Experimental and numerical investigation of the hydrodynamic characteristics of Autonomous Underwater Vehicles over sea-beds with complex topography
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[16] Introduction to Design and Analysis of Torsional Vibration Dampers in Vehicle Industry
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[17] Optimal design of nose and tail of an autonomous underwater vehicle hull to reduce drag force using numerical simulation
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[18] Optimized design of an autonomous underwater vehicle, for exploration in the Caribbean Sea
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[19] Numerical Investigation on the Effect of Conning Tower in Submarine
International Journal of Scientific and Engineering Research, 2019
[20] Hydrodynamic Design of a Morphic Autonomous Underwater Vehicle Using Neural Networks
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[21] Análises hidrodinâmica e geométrica, via CFD, do escoamento ao redor de um veículo autônomo submarino.
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[22] Three-dimensional computational fluid dynamics based design of hull and propeller of an underwater vehicle
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[23] Hydrodynamic Design of Underwater Gliders Usingk-k-Reynolds Averaged Navier–Stokes Transition Model
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[24] Hydrodynamic Design of Underwater Gliders Using k-kL-ω Reynolds Averaged Navier–Stokes Transition Model
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[25] Application of Passive Drag Reduction Techniques on a Scaled-Down Underwater Vehicle
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[26] 9º CONGRESSO BRASILEIRO DE PESQUISA E DESENVOLVIMENTO EM PETRÓLEO E GÁS
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[27] Estudio del flujo turbulento sobre un vehículo estratosférico mediante el método de elementos finitos
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[28] Hydrodynamic coefficients calculation of a complex-shaped underwater robot by simulation and prototype testing
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[29] FORM DEVELOPMENT AND VALIDATION OF AN AUTONOMOUS UNDERWATER VEHICLE
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[30] Experimental characterization and comparison of performance parameters of S-rotors for standalone wind power system
Energy, 2017
[31] Development of a highly maneuverable unmanned underwater vehicle on the basis of quad-copter dynamics
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[32] Hydrodynamic Design of Underwater Gliders Using kk- Reynolds Averaged Navier–Stokes Transition Model
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[33] Variable speed hydrodynamic model of an AUV utilizing cross-tunnel thrusters
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[34] Azimuth Thruster Design for the Battlestar Relaxica Thrust Vectoring for Houseboats
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[35] Numerical Derivation of Hydrodynamic Forces and Invention of a New Diving Technique for the Batoid Underwater Robot
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[36] Assessment of underwater glider performance through viscous computational fluid dynamics
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[37] Dynamic analysis of a cable underwater robot in a nuclear reaction pool
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[38] Computational Fluid Dynamics Prediction of a Modified Savonius Wind Turbine with Novel Blade Shapes
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[39] Conceptual design of an underwater robot
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[40] Three-dimensional Computational Fluid Dynamics Based Design of an Underwater Vehicle
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