船舶燃气轮机进气系统惯性级滤清器叶片优化设计

Yu Fu, Shi Bo Yang, Yan Ming Liu, Jian Hua Wang

科研成果: 期刊稿件文章同行评审

摘要

The performance of inertia stage filter is an important factor affecting the quality of the flow field at the outlet of marine gas turbine air intake system, and also determines the power level of the ship to a certain extent. With low total pressure loss and high filtration efficiency as the common goal, the numerical simulation method of gas-liquid two phase flow combined with experimental design method are a-dopted to construct the response surface equations among total pressure loss, filtration efficiency and blade geometric parameters respectively in this paper, and a multi-objective non-dominated sorting genetic algorithmis used to optimize and design the parameters of inertia stage filter blades. The results show that the optimized inertia stage filter achieves higher filtration efficiency with less total pressure loss in the full speed range. At the speed of 2 m/s, the optimized total pressure loss is reduced by 16. 98% and the filtration efficiency is increased by 37.61%. At the speed of 7 m/s, the optimized total pressure loss is reduced by 16. 7%, and the filtration efficiency is increased by 20. 83%;in inertia stage filters, for high flow speed, longer blade with smaller spacing and lower slope should be selected; for low flow speed, shorter blade with larger spacing and higher slope should be used; the optimized filter blade structure not only reduces the separation in the leeward area of the blade to reduce the total pressure loss, but also increases the contact between liquid particles and the blade to improve the filtration efficiency, so as to improve the whole performance of filter.

投稿的翻译标题Optimal Design of Inertia Stage Filter Blade for Marine Gas Turbine Air Intake System
源语言繁体中文
页(从-至)33-38
页数6
期刊Reneng Dongli Gongcheng/Journal of Engineering for Thermal Energy and Power
38
4
DOI
出版状态已出版 - 4月 2023

关键词

  • filtration efficiency
  • inertia stage filters
  • multi-objective genetic algorithm
  • optimized design
  • total pressure loss

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