A numerical study on the feasibility of predicting the resistance of a full-scale ship using a virtual fluid

IF 2.3 3区工程技术 Q2 ENGINEERING, MARINE International Journal of Naval Architecture and Ocean Engineering Pub Date : 2024-01-01 DOI:10.1016/j.ijnaoe.2023.100560

Kwan-Woo Kim , Kwang-Jun Paik , Soon-Hyun Lee , Jun-Hee Lee , Soo-Yeon Kwon , Dohan Oh

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Abstract

In general, the resistance of a real ship is estimated using an extrapolation method after doing experimental tests or numerical simulations with a model scale ship. Since the only Froude similarity is applied in the model test and simulation, the flow characteristics between the model and real ships could be different due to the inconsistency of Reynolds number. However, in the Computational Fluid Dynamics (CFD), the Froude and Reynolds numbers can be satisfied simultaneously because a fluid with virtual properties can be applied. This study investigated the effect of turbulence models and scales for a flat plate. And then the hydrodynamic feasibility of using a virtual fluid was investigated through numerical analysis. The resistance performance and flow structure of the ship were analysed by applying the virtual fluid, and they were confirmed how well these values and flow characteristics simulate the full-scale with a real fluid. This study shows that the results of a full-scale can be obtained at model scale by applying a virtual fluid instead of full-scale numerical simulations that require more computational resources.

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关于利用虚拟流体预测全尺寸船舶阻力可行性的数值研究

一般情况下，实船的阻力估算是通过模型船的实验测试或数值模拟后采用外推法进行的。由于在模型试验和仿真中只采用了弗劳德相似，因此由于雷诺数的不一致，模型与真船之间的流动特性可能会有所不同。然而，在计算流体力学(CFD)中，由于可以应用具有虚性质的流体，因此可以同时满足弗劳德数和雷诺数。本文研究了湍流模型和尺度对平板的影响。在此基础上，通过数值分析探讨了采用虚拟流体的水动力可行性。应用虚拟流体对船舶的阻力性能和流动结构进行了分析，并验证了这些数值和流动特性与真实流体的全尺寸模拟效果。该研究表明，在模型尺度下，采用虚拟流体代替需要更多计算资源的全尺寸数值模拟，可以得到全尺寸数值模拟的结果。

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来源期刊

International Journal of Naval Architecture and Ocean Engineering ENGINEERING, MARINE-

CiteScore

4.90

自引率

4.50%

发文量

审稿时长

12 months

期刊介绍： International Journal of Naval Architecture and Ocean Engineering provides a forum for engineers and scientists from a wide range of disciplines to present and discuss various phenomena in the utilization and preservation of ocean environment. Without being limited by the traditional categorization, it is encouraged to present advanced technology development and scientific research, as long as they are aimed for more and better human engagement with ocean environment. Topics include, but not limited to: marine hydrodynamics; structural mechanics; marine propulsion system; design methodology & practice; production technology; system dynamics & control; marine equipment technology; materials science; underwater acoustics; ocean remote sensing; and information technology related to ship and marine systems; ocean energy systems; marine environmental engineering; maritime safety engineering; polar & arctic engineering; coastal & port engineering; subsea engineering; and specialized watercraft engineering.