A numerical study on the optimization of the slit shape of a jet injection propeller

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.2023.100578

Jun-Hee Lee , Ju-Han Lee , Myeong-Min Kim , Dohan Oh , Kwang-Jun Paik

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Abstract

The shape of the slit that injects the jet from the surface of the propeller was optimized through numerical computations. The high-pressure drop on the propeller surface caused by jet injection could be improved by modifying the hydrofoil geometry of the propeller. As the cover length increased and the slit was located at the center of the propeller, the volume of jets leading to the trailing edge increased, and the propulsion performance was improved. As the height of the slit increased, the thrust increased due to the Coanda effect, and the torque decreased because of the thrust of the jet. The jet injection pattern differed according to the area of the slit and tunnel, which caused a difference in the propeller performance. The jet pattern changed according to the area of the slit and tunnel, leading to a change in propeller performance. It was effective in improving the efficiency by injecting from as wide an area as possible, and the efficiency was improved by approximately 2 % considering the pump efficiency through optimization of the slit shape.

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关于喷射推进器狭缝形状优化的数值研究

通过数值计算，对从螺旋桨表面喷射射流的狭缝形状进行了优化。通过修改螺旋桨的水翼几何形状，可以改善喷射造成的螺旋桨表面高压降。随着盖板长度的增加和狭缝位于螺旋桨中心，通向后缘的喷流体积增大，推进性能得到改善。随着狭缝高度的增加，推力因科恩达效应而增加，扭矩则因射流的推力而减小。喷射模式随狭缝和隧道面积的不同而不同，这导致了螺旋桨性能的差异。喷射模式随狭缝和隧道面积的变化而变化，从而导致螺旋桨性能的变化。通过优化狭缝形状，从尽可能宽的区域喷射可有效提高效率，考虑到泵的效率，效率提高了约 2%。

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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.