The resulting equations are solved by using the pressure correction algorithm.
采用压力校正算法来求解最终的方程。
Exact solutions to the resulting equations are constructed via the compatibility of the generalized conditional symmetry and the considered equation.
并且依据广义条件对称和所考虑方程的相容性求得了相应方程的群不变解。
When the resulting equations of motion are solved numerically, they show the elements of a clearance joint keeping continuous deformation contact when the mechanism works at hi...
首次指出了高速运转条件下,运动副副元素由于弹性变形而出现的连续变形接触现象。
When the resulting equations of motion are solved numerically, they show the elements of a clearance joint keeping continuous deformation contact when the mechanism works at high speed.
首次指出了高速运转条件下,运动副副元素由于弹性变形而出现的连续变形接触现象。
The primal-dual interior point method can solve effectively the problem with a lot of constraints resulting from the motion equations of the generator rotors with the result of perfect convergence.
而原始-对偶内点法完全可以很好地解决由于发电机转子运动方程的引入带来的大量约束问题,具有极好的收敛特性。
In this thesis, we choose truncated singular value decomposition to solve the resulting matrix equations, while the regularization parameter of TSVD is determined by the L-curve criterion.
鉴于此,必须采用正则化方法,本文中选用的是截断奇异值分解,其正则化参数用l -曲线准则来确定。
Moreover, due to the dynamic equations of LPMs with second-order derivative terms in time, the resulting structure-foundation-soil system can be solved by an explicit time-integration method.
此外,由于模型的动力方程具有二阶时间导数项,因而应用本文模型的结构—基础—土系统可以采用显式时间积分求解。
The model and equations were applied in a established pyrolysis plant, and the resulting theoretical predictions were in satisfactory agreement with the experimental data.
应用该模型对一台中试装置进行了理论计算,计算结果与实验结果吻合较好。
Considering the nonlinear factors resulting from considering the changing of transient body wetted surface, the nonlinear motion equations are built and solved in time domain.
考虑瞬时物面变化引起的各种非线性因素,在时域内建立浮体的非线性运动方程并求解。
Considering the nonlinear factors resulting from considering the changing of transient body wetted surface, the nonlinear motion equations are built and solved in time domain.
考虑瞬时物面变化引起的各种非线性因素,在时域内建立浮体的非线性运动方程并求解。
应用推荐