International Journal of Engineering Research

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The Numerical Analysis of Flow Field on Warship Deck


Affiliations
1 Department of Marine Engineering, Taipei College of Maritime Technology, No. 212, Sec. 9, Yen Ping N. Rd., Shihlin Dist., Taipei-11174, Taiwan, Province of China
2 Department of Power Vehicle and Systems Engineering, Chung Cheng Institute of Technology, National Defense University, No. 75, Shiyuan Rd., Dashi Jen 335, Taoyuan, Taiwan, Province of China
3 Department of Engineering Science and Ocean Engineering, National Taiwan University, No. 1, Sec. 4, Roosevelt Road, Taipei-10617, Taiwan, Province of China
 

This study aims to simulate the exhaust flow field of ship by the method of computational fluid dynamics (CFD) concerning with the interference by exhaust temperature, shape of stack and rolling angles etc.. In this research wind tunnel test for a corvette has been performed to attain associated experimental data, which were used as a reference basis. During simulation process several configurations of stacks have been selected, and combining with various rolling angles, exhaust temperatures and velocities, we have generated numerous cases from which the diffusion paths and temperature distribution of the exhaust flow field can be clearly observed and analyzed. In terms of numerical simulation, the packaged program computational fluid dynamics software has been adopted. The simulation results also possess the same trend as the experimental data, which have initially confirmed the methods developed here can be used for the arrangement of stack and superstructure at the stage of initial and conceptual design of ships.

Keywords

Computational Fluid Dynamics, Diffusion Distribution, Wind Tunnel Test, Smoke Diffusion, Atmospheric Pressure.
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  • The Numerical Analysis of Flow Field on Warship Deck

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Authors

Kwan Ouyang
Department of Marine Engineering, Taipei College of Maritime Technology, No. 212, Sec. 9, Yen Ping N. Rd., Shihlin Dist., Taipei-11174, Taiwan, Province of China
Reui-Kuo Lin
Department of Marine Engineering, Taipei College of Maritime Technology, No. 212, Sec. 9, Yen Ping N. Rd., Shihlin Dist., Taipei-11174, Taiwan, Province of China
Sheng-Ju Wu
Department of Power Vehicle and Systems Engineering, Chung Cheng Institute of Technology, National Defense University, No. 75, Shiyuan Rd., Dashi Jen 335, Taoyuan, Taiwan, Province of China
Wen-Hann Sheu
Department of Engineering Science and Ocean Engineering, National Taiwan University, No. 1, Sec. 4, Roosevelt Road, Taipei-10617, Taiwan, Province of China

Abstract


This study aims to simulate the exhaust flow field of ship by the method of computational fluid dynamics (CFD) concerning with the interference by exhaust temperature, shape of stack and rolling angles etc.. In this research wind tunnel test for a corvette has been performed to attain associated experimental data, which were used as a reference basis. During simulation process several configurations of stacks have been selected, and combining with various rolling angles, exhaust temperatures and velocities, we have generated numerous cases from which the diffusion paths and temperature distribution of the exhaust flow field can be clearly observed and analyzed. In terms of numerical simulation, the packaged program computational fluid dynamics software has been adopted. The simulation results also possess the same trend as the experimental data, which have initially confirmed the methods developed here can be used for the arrangement of stack and superstructure at the stage of initial and conceptual design of ships.

Keywords


Computational Fluid Dynamics, Diffusion Distribution, Wind Tunnel Test, Smoke Diffusion, Atmospheric Pressure.