FLUID PRESSURE ON RECTANGULAR RIGID TANKS DUE TO UPLIFT MOTION

机译：由于上升运动，矩形刚性油箱上的流体压力

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This paper mathematically derives fluid pressure on a rectangular rigid tank with unit depth, which models a section of a center part of a flat-bottom cylindrical shell tank, accompanied with uplift motion. Employing boundary conditions consisting of fluid velocity imparted by motion of the side walls and bottom plate of the tank along with uplifting, the equation of continuity of fluid given by the Laplace equation is solved as the parabolic partial differential equation of Neumann problem. The fluid pressure is given by a function of the velocity potential. Comparison of mathematical results with numerical ones based on explicit FE analysis corroborates its accuracy and applicability on design procedure of flat-bottom cylindrical shell tanks.

机译：本文从数学上推导具有单位深度的矩形刚性罐上的流体压力，该模型模拟了平底圆柱壳罐的中心部分的截面，并伴随着上升运动。利用边界条件，该边界条件由罐的侧壁和底板的运动以及上升引起的流体速度所组成，将拉普拉斯方程给出的流体连续性方程作为诺伊曼问题的抛物型偏微分方程进行求解。流体压力由速度势的函数给出。基于显式有限元分析的数学结果与数值结果的比较，证实了其在平底圆柱壳罐设计过程中的准确性和适用性。

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《ASME(American Society of Mechanical Engineers) Pressure Vessels and Piping Conference 2007》|2008年|P.27|共1页
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Tomoyo Taniguchi; Yoshinori Ando;
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4. FLUID PRESSURE ON RECTANGULAR TANK CONSISTING OF RIGID SIDE WALLS AND RECTILINEARLY DEFORMING BOTTOM PLATE DUE TO UPLIFT MOTION [C] . Tomoyo Taniguchi, Toru Segawa ASME pressure vessels and piping conference;PVP2008 . 2009

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FLUID PRESSURE ON RECTANGULAR RIGID TANKS DUE TO UPLIFT MOTION

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