搜索资源列表
BH_wangjiajun
- 一个横截面尺寸为200x300 mm 的二维导热物体,边界条件分别为:左边绝热;右边与接触的流体对流换热,表面传热系数为50 W/(m2·K),流体温度为20°C;上边维持均匀的温度400°C;下边被常热流加热,热流密度为1500 W/m2。已知该物体的热导率为45 W/(m·K)。采用均匀网格,△y=△x=50mm,试用数值方法计算该物体的温度分布。(A two-dimensional heat conducting object w
chengxu
- 用晶格玻尔兹曼方法来计算流体,方便,此代码为何雅玲院士所著《格子boltzmann方法的理论及应用》中后面计算顶盖滑动的附带c++代码。(to simulate the fluid with lattice boltzmann method)
sod
- sod激波管问题,x<0:(u,ρ,p)=(0,1,1);x≥0:(u,ρ,p)=(0,0.125,0.1),画出t=0.14时刻的u,ρ,p曲线.(The Sod shock tube problem, named after Gary A. Sod, is a common test for the accuracy of computational fluid codes, like Riemann solvers, and
streamer_1d
- 使用Fortran语言编写的PIC-MCC和流体模型仿真,用于研究一维流注放电。(PIC-MCC and fluid model simulation written in FORTRAN language are used to study one-dimensional streamer discharge.)
poiseuille
- 泊肃叶流动,对于研究流体是一个很好的工具(Poiseuille flow is a good tool for studying fluids)
编程作业
- 编写程序建立套管换热器数学仿真 模型,并计算换热器两侧流体沿程温度、对流换热系数、雷 诺数与热流密度的变化规律。(The mathematical simulation model of casing heat exchanger was established by programming, and the variation of temperature, convective heat transfer coefficient,
testcouette
- 在matlab环境下的格子玻尔兹曼方法进行库特流的流体仿真(The lattice Boltzmann method in Matlab environment for the fluid simulation of Kuyt flow)
ccfd_tutorial1
- PFC流固耦合分析实例详解,详细介绍如何使用PFC2D颗粒流离散元FISH程序模拟流体运移过程(the tutorial of CCFD case in PFC2D softwear which is using the FISH Code.)
square_node_array
- 网上找的资源的,主要用来,完成作业,进行CF流体计算。(The resources found on the Internet are mainly used to complete the operation and carry out CF fluid calculation.)
FLASH4.5.tar
- 计算磁流体力学,flash对天体物理有着很好的模拟环境(This is for Sedov simulation)
yi_ver5
- 基于Jeffery方程,给出了纤维在非牛顿流体内的流动状态(Based on Jeffery equation, the flow state of fiber in non Newtonian fluid is given)
ansys18.2
- ansys18.2软件,可进行结构,流体,热分析,磁场等分析模拟计算
EFG2
- 无网格法在数值计算中不需要生成网格,而是按照一些任意分布的坐标点构造插值函数离散控制方程,就可方便地模拟各种复杂形状的流场。该法大致可分成两类:一类是以Lagrange方法为基础的粒子法(Particle method),如光滑粒子流体动力学(Smoothed particle hydrodynamics,简称SPH)法,和在其基础上发展的运动粒子半隐式(Moving-particle semi-implicit,简称MPS)法等;另一
LBM_P
- 格子玻尔兹曼仿真多孔介质,适合煤炭,石油,岩土等行业(Lattice Boltzmann simulation of porous media, suitable for coal, petroleum, geotechnical and other industries)
kelirushui
- 1、单向流固耦合(one_way):也就是颗粒受流体作用,但是流体不受影响。 2、利用达西定律实现双向耦合 3、和第三方的算法或者流体软件进行耦合(比如OpenFOAM) 这里做一个单向耦合的小例子——模拟颗粒落入流动的水中。(Particles fall into the water)
OpenFOAM-2.4.0
- openfoam2.4.0官方版,用于进行流体或传热方面的研究,非常有用的软件(openfoam2.4.0 version)
粘弹性流变
- 本书从数学以及力学的角度介绍粘弹性流体的基本知识。