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引用次数: 17
摘要
本文提出了一系列的数值研究,以测试和证明RANS求解器在复杂船舶流动模拟领域的能力。重点是建立一个完整的船体、螺旋桨和舵的数值模型,该模型可以解释这些部件之间的相互作用。本文介绍了3600 TEU MOERI集装箱船(以下简称KCS)船体模型周围流动计算的复杂研究结果。给出了装舵船体的阻力计算和自推进仿真。通过与东京2015船舶流体力学CFD研讨会的实验数据对比,验证了总阻力系数和波浪阻力系数、下沉和纵倾系数、推力和扭矩系数、螺旋桨效率和局部流动特性的数值方法。基于网格收敛测试对每个计算案例进行了验证和验证。讨论了计算中使用的湍流模型的效率以及主要的流动特征,目的是澄清船尾周围流动的复杂结构。
Numerical Simulation of the Resistance and Self-Propulsion Model Tests
The paper proposes a series of numerical investigations performed to test and demonstrate the capabilities of a RANS solver in the area of complex ship flow simulations. Focus is on a complete numerical model for hull, propeller and rudder that can account for the mutual interaction between these components. The paper presents the results of a complex investigation of the flow computations around the hull model of the 3600 TEU MOERI containership (KCS hereafter). The resistance for the hull equipped with rudder, the POW computations as well as the self-propulsion simulation are presented. Comparisons with the experimental data provided at the Tokyo 2015 Workshop on CFD in Ship Hydrodynamics are given to validate the numerical approach in terms of the total and wave resistance coefficients, sinkage and trim, thrust and torque coefficients, propeller efficiency and local flow features. Verification and validation based on the grid convergence tests are performed for each computational case. Discussions on the efficiency of the turbulence models used in the computations as well as on the main flow features are provided aimed at clarifying the complex structure of the flow around the stern.
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