"基于云计算的可压流体圆柱绕流计算模拟与迭代求解方法研究"

The document "Cloud Computing - Simulation of Flow around a Compressible Fluid Cylinder" outlines the process of simulating flow around a compressible fluid cylinder using cloud computing technology. The study focuses on density in the geometry fields, presenting relevant differential equations and solving them using various methods. The main objective of the study is to analyze and establish a mathematical model (Navier-Stokes equation) for the concrete problem of flow around a compressible fluid cylinder. The equations are solved using iterative methods such as the Jacobi iteration. The iterative process is implemented using a C program to efficiently carry out the calculations. The main steps of the simulation process can be divided into several stages. Firstly, the analysis of the concrete problem is conducted to establish the mathematical model based on the Navier-Stokes equation. The equations are then solved using iterative methods, specifically the Jacobi iteration. The iterative process is carried out using a C program to efficiently solve the equations and simulate the flow around the compressible fluid cylinder. Overall, the study demonstrates the use of cloud computing technology to simulate flow around a compressible fluid cylinder. By utilizing iterative methods and implementing them in a C program, the study showcases an efficient and effective approach to solving complex differential equations in fluid dynamics. The results of the simulation provide valuable insights into the behavior of compressible fluid flow around cylinders, contributing to the ongoing research in the field of fluid dynamics and computational fluid dynamics.