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Analysis of Cavitation Performance of a 2-D Hydrofoil Based on Mixed-iterative Method 被引量:1

Analysis of Cavitation Performance of a 2-D Hydrofoil Based on Mixed-iterative Method
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摘要 In order to study cavitation characteristics of a 2-D hydrofoil, the method that combines nonlinear cavitation model and mixed-iteration is used to predict and analyze the cavitation performance of hydrofoils. The cavitation elements are nonlinearly disposed based on the Green formula and perturbation potential panel method. At the same time, the method that combines cavity shape for fixed cavity length (CSCL) iteration and cavity shape for fixed cavitation number (CSCN) iteration is used to work out the thickness and length of hydrofoil cavitations. Through analysis of calculation results, it can be concluded that the jump of pressure and velocity potentially exist between cavitation end area and non-cavitations area on suction surface when cavitation occurs on hydrofoil. In certain angles of attack, the cavitation number has a negative impact on the length of cavitations. And under the same angle of attack and cavitation number, the bigger the thickness of the hydrofoil, the shorter the cavitations length.
出处 《Journal of Marine Science and Application》 2013年第1期52-57,共6页 船舶与海洋工程学报(英文版)
基金 Supported by the National Natural Science Foundation of China (Grant No. 41176074) China Postdoctoral Science Foundation (Grant No.2012M512133) Specialized Research Fund for the Doctoral Program of Higher Education (Grant No.20102304120026)
关键词 2-D hydrofoil cavitation performance nonlinear theory mixed-iterative method cavity shape for fixed cavitation number (CSCN) cavity shape for fixed cavity length (CSCL) 汽蚀性能 迭代混合 水翼船 迭代法 性能分析 非线性处理 空化模型 空化数
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