An Explanation for a Paradox in a Fluid-discharging Cantilevered Pipe attached with an End-mass

IF 1.3 4区 工程技术 Q3 ENGINEERING, MECHANICAL Journal of Offshore Mechanics and Arctic Engineering-Transactions of the Asme Pub Date : 2023-01-23 DOI:10.1115/1.4056734
Guixin Zhao, Shuai Meng, Z. Han, Shixiao Fu
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Abstract

For a fluid-discharging cantilevered pipe attached with an end-mass, there are two methods to account for the end-mass effect. The first is that the end-mass is considered in the boundary conditions. The second is that the end-mass is included in the equation of motion via a Dirac delta function. As the analytical solution of the linear free vibration model is not available due to the presence of Coriolis force, the eigenfunctions of a beam which satisfy the same boundary conditions are commonly employed in Galerkin method. It has found the first method is incorrect for natural frequency calculation when the internal flow velocity is nonzero. However, the intrinsic mechanism remains to be clarified. This study has demonstrated the eigenfunctions in the first method depends on the end-mass and the orthogonality relations are quite different from that of typical simple beams, based on which a new model is proposed and the prediction compare well with that in the second method. For further validation, the critical internal flow velocity and the onset flutter frequency of a suspended pipe under gravity is computed, which compare well with experimental observations. This study can provide as a workbench for fluid-conveying pipes with various boundary conditions.
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端部附体悬臂放液管中一个悖论的解释
对于带有端质量的排液悬臂管,有两种方法来解释端质量效应。首先,在边界条件中考虑了端质量。第二,末端质量通过狄拉克函数包含在运动方程中。由于科里奥利力的存在,无法得到线性自由振动模型的解析解,在伽辽金法中通常采用满足相同边界条件的梁的本征函数。发现当内流速非零时,第一种方法计算固有频率是不正确的。然而,其内在机制尚不清楚。研究表明,第一种方法的本征函数依赖于端部质量,且正交关系与典型简支梁的正交关系有很大不同,在此基础上提出了一种新的模型,其预测结果与第二种方法的预测结果相当。为了进一步验证,计算了重力作用下悬挂管道的临界内流速和起始颤振频率,结果与实验结果吻合较好。该研究可为具有不同边界条件的流体输送管道提供参考。
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来源期刊
CiteScore
4.20
自引率
6.20%
发文量
63
审稿时长
6-12 weeks
期刊介绍: The Journal of Offshore Mechanics and Arctic Engineering is an international resource for original peer-reviewed research that advances the state of knowledge on all aspects of analysis, design, and technology development in ocean, offshore, arctic, and related fields. Its main goals are to provide a forum for timely and in-depth exchanges of scientific and technical information among researchers and engineers. It emphasizes fundamental research and development studies as well as review articles that offer either retrospective perspectives on well-established topics or exposures to innovative or novel developments. Case histories are not encouraged. The journal also documents significant developments in related fields and major accomplishments of renowned scientists by programming themed issues to record such events. Scope: Offshore Mechanics, Drilling Technology, Fixed and Floating Production Systems; Ocean Engineering, Hydrodynamics, and Ship Motions; Ocean Climate Statistics, Storms, Extremes, and Hurricanes; Structural Mechanics; Safety, Reliability, Risk Assessment, and Uncertainty Quantification; Riser Mechanics, Cable and Mooring Dynamics, Pipeline and Subsea Technology; Materials Engineering, Fatigue, Fracture, Welding Technology, Non-destructive Testing, Inspection Technologies, Corrosion Protection and Control; Fluid-structure Interaction, Computational Fluid Dynamics, Flow and Vortex-Induced Vibrations; Marine and Offshore Geotechnics, Soil Mechanics, Soil-pipeline Interaction; Ocean Renewable Energy; Ocean Space Utilization and Aquaculture Engineering; Petroleum Technology; Polar and Arctic Science and Technology, Ice Mechanics, Arctic Drilling and Exploration, Arctic Structures, Ice-structure and Ship Interaction, Permafrost Engineering, Arctic and Thermal Design.
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