船用螺旋桨叶片应力的数值分析(英文)
发布时间:2022-08-02 13:53
In this study, a series of numerical calculations are carried out in ANSYS Workbench based on the unidirectional fluid–solid coupling theory. Using the DTMB 4119 propeller as the research object, a numerical simulation is set up to analyze the open water performance of the propeller, and the equivalent stress distribution of the propeller acting in the flow field and the axial strain of the blade are analyzed. The results show that FLUENT calculations can provide accurate and reliable calculatio...
【文章页数】:8 页
【文章目录】:
1 Introduction
2 Theoretical Basis
2.1 Hydrodynamic Analysis
2.2 Structural Analysis
3 Numerical Simulation of the Flow Field
3.1 Propeller Parameters
3.2 CFD Calculation Model
3.3 Boundary Condition Setting
3.4 Calculation Results
3.4.1 Calculation of Open Water Performance
3.4.2 Pressure Distribution on the Surface of the Blade
4 Finite Element Calculation of the Blade Stress
4.1 Propeller Meshing and Condition Setting
4.2 Calculation Results
4.2.1 Stresses of Propellers Made of Different Materials
4.2.2 Stress Distribution of the Propeller
5 Conclusions
【参考文献】:
期刊论文
[1]复合材料螺旋桨非定常流固耦合特性数值分析[J]. 李子如,李广辉,何朋朋,贺伟. 华中科技大学学报(自然科学版). 2019(09)
[2]基于有限元和面元法的弹性螺旋桨流固耦合特性分析[J]. 李家盛,张振果,华宏星. 振动与冲击. 2018(21)
[3]基于ANSYS ACP的复合材料螺旋桨流固耦合计算方法[J]. 黄政,熊鹰,杨光. 计算力学学报. 2017(04)
[4]复合材料螺旋桨的加厚及预变形设计[J]. 黄政,熊鹰,孙海涛. 推进技术. 2017(09)
[5]基于VBA的螺旋桨流固耦合数值模拟[J]. 贺伟,李廷秋,李子如. 武汉理工大学学报(交通科学与工程版). 2014(06)
[6]CFD敞水螺旋桨性能计算分析[J]. 缪宇跃,孙江龙. 中国舰船研究. 2011(05)
本文编号:3668646
【文章页数】:8 页
【文章目录】:
1 Introduction
2 Theoretical Basis
2.1 Hydrodynamic Analysis
2.2 Structural Analysis
3 Numerical Simulation of the Flow Field
3.1 Propeller Parameters
3.2 CFD Calculation Model
3.3 Boundary Condition Setting
3.4 Calculation Results
3.4.1 Calculation of Open Water Performance
3.4.2 Pressure Distribution on the Surface of the Blade
4 Finite Element Calculation of the Blade Stress
4.1 Propeller Meshing and Condition Setting
4.2 Calculation Results
4.2.1 Stresses of Propellers Made of Different Materials
4.2.2 Stress Distribution of the Propeller
5 Conclusions
【参考文献】:
期刊论文
[1]复合材料螺旋桨非定常流固耦合特性数值分析[J]. 李子如,李广辉,何朋朋,贺伟. 华中科技大学学报(自然科学版). 2019(09)
[2]基于有限元和面元法的弹性螺旋桨流固耦合特性分析[J]. 李家盛,张振果,华宏星. 振动与冲击. 2018(21)
[3]基于ANSYS ACP的复合材料螺旋桨流固耦合计算方法[J]. 黄政,熊鹰,杨光. 计算力学学报. 2017(04)
[4]复合材料螺旋桨的加厚及预变形设计[J]. 黄政,熊鹰,孙海涛. 推进技术. 2017(09)
[5]基于VBA的螺旋桨流固耦合数值模拟[J]. 贺伟,李廷秋,李子如. 武汉理工大学学报(交通科学与工程版). 2014(06)
[6]CFD敞水螺旋桨性能计算分析[J]. 缪宇跃,孙江龙. 中国舰船研究. 2011(05)
本文编号:3668646
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