Sloshing Behavior(晃动行为)研究综述
Sloshing Behavior 晃动行为 - Also the results for different tanks under both horizontal and vertical earthquakes show that free surface vertical displacement depends on the spectral response acceleration at the first fundamental period of sloshing behavior. [1] Sloshing behavior due to near-fault type and earthquake excitations of a fluid in a tank having a highly deformable elastic structure in the middle was investigated experimentally and numerically in this paper. [2] The results showed that in the absence of an external magnetic field, the sloshing behavior of water and ferrofluid were approximately the same. [3]水平和垂直地震下不同储罐的结果表明,自由表面垂直位移取决于晃荡行为第一基本周期的谱响应加速度。 [1] 本文通过实验和数值方法研究了中间具有高度可变形弹性结构的储罐中流体的近断层类型和地震激发引起的晃动行为。 [2] 结果表明,在没有外部磁场的情况下,水和铁磁流体的晃荡行为大致相同。 [3]
Nonlinear Sloshing Behavior 非线性晃动行为
This paper presents an equal-norm multiple-scale Trefftz method (MSTM) associated with the group-preserving schemes (GPS) to tackle some difficulties in nonlinear sloshing behaviors. [1] In this paper, the nonlinear sloshing behavior of a liquid in a partially filled tank is studied using the finite-element method (FEM) based on new spherical Hankel shape functions. [2]本文提出了一种与群保留方案(GPS)相关的等范多尺度Trefftz方法(MSTM),以解决非线性晃动行为中的一些困难。 [1] 在本文中,使用基于新球形 Hankel 形状函数的有限元方法 (FEM) 研究了部分填充罐中液体的非线性晃荡行为。 [2]
Fluid Sloshing Behavior 流体晃动行为
To deeply understand fluid sloshing behavior in non-isothermal fuel storage tanks, a numerical model is built by coupling fluid flow and heat exchange. [1] A numerical model is developed to study fluid sloshing behavior in a liquid oxygen tank. [2]为了深入了解非等温燃料储罐中的流体晃动行为,通过耦合流体流动和热交换建立了数值模型。 [1] 开发了一个数值模型来研究液氧罐中的流体晃动行为。 [2]