对带有顶盖鳍的开放式螺旋桨的影响评估:B4-70 和 Ka4-70 型案例研究

Q2 Mathematics CFD Letters Pub Date : 2024-05-06 DOI:10.37934/cfdl.16.9.143177
Berlian Arswendo Adietya, Husein Syahab, Mahendra Indiaryanto, Wasis Dwi Aryawan, I Ketut Aria Pria Utama
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引用次数: 0

摘要

研究人员特别使用 B4-70 和 Ka4-70 螺旋桨,对鳍片对螺旋桨性能的影响进行了数值分析。研究使用计算流体动力学(CFD)模拟对不同类型的鳍片进行了调查,包括裸鳍片和 PBCF(螺旋桨上盖鳍片)。研究采用了基于雷诺平均纳维-斯托克斯(RANS)方程和湍流建模的显式代数应力模型(EASM)来确定最佳结果。这项研究的主要目的是通过研究各种开放式螺旋桨配置来提高船舶的能源效率。B4-70 和 Ka4-70 开放式螺旋桨的 CFD 仿真结果显示了有趣的现象。当开放式螺旋桨 B4-70 和 Ka4-70 装有 PBCF 时,它们的效率(η0)会有所提高。这是因为当推进比(J)较高时,翅片的性能会达到最佳状态,这一点从高速度值可以看出。因此,在 J 值较高时,上盖区域的速度较高,压力较低,由于轮毂涡流的减少,推力也随之增加。对于添加了 PBCF 的开放式螺旋桨 B4-70,当 J 在 0 到 0.7 之间变化时,效率值(η0)增加了 3% 到 5%。同样,对于添加了 PBCF 的螺旋桨 Ka4-70,当 J 在 0 到 0.7 之间变化时,效率值(η0)增加了 1%到 3%。值得注意的是,如本文所述,使用 PBCF 形式的节能装置 (ESD) 可以提高船舶螺旋桨的效率。因此,这些发现证实了使用 CFD 方法进行整体计算的可靠性。
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Influence Evaluation of Open Propellers with Boss Cap Fins: Case Studies on Types B4-70 and Ka4-70
Numerical analysis of fins effect on propeller performance was conducted, specifically using the B4-70 and Ka4-70 propellers. The study investigated different types of fins, including bare fins and PBCF (Propeller Boss Cap Fins) using computational fluid dynamics (CFD) simulations. The explicit algebraic stress model (EASM) based on Reynolds-Averaged Navier-Stokes (RANS) equations and turbulence modeling was employed to determine the optimal results. The main objective of this research was to enhance energy efficiency in ships by examining various open propeller configurations. The CFD simulation results for open propellers B4-70 and Ka4-70, with the addition of boss cap fins, revealed interesting phenomena. When the open propellers B4-70 and Ka4-70 were equipped with PBCF, they would experience an increase in efficiency (η0). This was because the performance of the fins functioned optimally when the advance ratio (J) is high, as evident from the high velocity values. Thus, with higher velocity and lower pressure in the boss cap region at high J values, there was an elevation in thrust force due to the reduction of hub vortex. In the case of open propeller B4-70 with added PBCF, there was an increase in the efficiency value (η0) ranging from 3% to 5% when J varied from 0 to 0.7. Similarly, for propeller Ka4-70 with the addition of PBCF, there was an increase in the efficiency value (η0) ranging from 1% to 3% when J varied from 0 to 0.7. Notably, the use of an Energy-Saving Device (ESD) in the form of PBCF can increase the efficiency of ship propeller, as reported in this paper. Consequently, these findings affirmed the reliability of the overall calculations using the CFD approach.
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来源期刊
CFD Letters
CFD Letters Chemical Engineering-Fluid Flow and Transfer Processes
CiteScore
3.40
自引率
0.00%
发文量
76
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