NUMERICAL INVESTIGATIONS ON THE FREE SURFACE FLOW AROUND WING-BODY JUNCTIONS

C. Ungureanu, C. Ungureanu
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引用次数: 0

Abstract

Starting with January 2013, all ships greater than 400 tons engaged in international voyages must comply with the Energy Efficiency Design Index (EEDI), and starting with January 2023 also with the Efficiency Existing Ship Index (EEXI), issued by the International Maritime Organization, (IMO). Knowing that, in general, a ship hull is the result of a compromise between the main dimensions imposed by the size of the locks, navigation route depth, port depth, taxes, transport capacity (deadweight, volume), ship equipment (machinery, deck installations, piping systems), hydrostatic performances and last but not least the hydrodynamic performances, from ship hydrodynamics point of view the available approaches are the optimization of the ship size and hull forms or the design of propellers adapted to the ship's wake. The main purpose is to reduce the ship resistance and increase the efficiency of the propulsion system which ultimately leads to a reduction in the power placed on board the ship. For this, there can be used the so-called flow control devices or Energy Saving Devices (ESD hereafter), as hydrofoils or nozzles, to improve the flow parameters entering the propeller disc in order to increase the efficiency of the propulsion system and decreasing the fuel consumption leading to reducing of the carbon and greenhouse gasses emissions. For ballast loading condition the ESD may intersect the free surface, the flow becoming complicated and combining nonlinear, three-dimensional and turbulent phenomena such as the boundary layer on solid surfaces, the horseshoe vortex system developed around junctions and their effects turbulence, and also wave breaking. Therefore, this paper presents the results of the numerical study on the viscous free surface flow around junctions between a hydrofoil mounted on a plate, more precisely the study of the influence of the angle between hydrofoil and plate. It was observed that from a hydrodynamic point of view the angle between hydrofoil and base plate to be less than 15 degrees in respect to the vertical direction on the hydrofoil so that horseshoe vortex to be reduced in intensity and the value of the hydrofoil drag to be minimal.
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翼体连接处自由表面流动的数值研究
从2013年1月起,所有从事国际航行的400吨以上船舶必须符合能源效率设计指数(EEDI),从2023年1月开始,还必须符合国际海事组织(IMO)发布的现有船舶效率指数(EEXI)。知道,一般来说,船体是船闸尺寸、航道深度、港口深度、税收、运输能力(自重、体积)、船舶设备(机械、甲板装置、管道系统)、静水压性能和最后但并非最不重要的静水压性能所施加的主要尺寸之间折衷的结果,从船舶流体力学的角度来看,可用的方法是优化船舶尺寸和船体形状,或设计适合船舶尾流的螺旋桨。主要目的是减少船舶阻力并提高推进系统的效率,这最终导致船上功率的降低。为此,可以使用所谓的流量控制装置或节能装置(以下简称ESD),作为水翼或喷嘴,以改善进入螺旋桨盘的流量参数,从而提高推进系统的效率并降低燃料消耗,从而减少碳和温室气体的排放。在压载条件下,ESD可能与自由表面相交,流动变得复杂,并结合了非线性、三维和湍流现象,如固体表面的边界层、在连接处周围形成的马蹄形涡流系统及其对湍流的影响,以及波浪破碎。因此,本文给出了安装在板上的水翼连接处粘性自由表面流动的数值研究结果,更确切地说,是水翼与板之间角度的影响研究。从流体动力学的角度观察到,水翼和基板之间的角度相对于水翼上的垂直方向小于15度,使得马蹄形涡流的强度减小并且水翼阻力的值最小。
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来源期刊
International Journal of Modern Manufacturing Technologies
International Journal of Modern Manufacturing Technologies Engineering-Industrial and Manufacturing Engineering
CiteScore
0.70
自引率
0.00%
发文量
15
期刊介绍: The main topics of the journal are: Micro & Nano Technologies; Rapid Prototyping Technologies; High Speed Manufacturing Processes; Ecological Technologies in Machine Manufacturing; Manufacturing and Automation; Flexible Manufacturing; New Manufacturing Processes; Design, Control and Exploitation; Assembly and Disassembly; Cold Forming Technologies; Optimization of Experimental Research and Manufacturing Processes; Maintenance, Reliability, Life Cycle Time and Cost; CAD/CAM/CAE/CAX Integrated Systems; Composite Materials Technologies; Non-conventional Technologies; Concurrent Engineering; Virtual Manufacturing; Innovation, Creativity and Industrial Development.
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