fluent噪声培训资料(上)

更新时间:2023-07-24 10:57:30 阅读: 评论:0

Tutorial:Modeling Flow-Induced(Aeroacoustic)Noi Problems Using FLUENT
Introduction
This tutorial demonstrates how to model2D turbulentflow across a circular cylinder using large eddy simulation(LES)and computeflow-induced(aeroacoustic)noi using FLUENT’s acoustics model.
You will learn how to:
•Perform a2D large eddy simulation.
•Set parameters for an aeroacoustic calculation.
淘宝网品牌服装
赵已晨•Save acoustic source data for an acoustic calculation.
•Postprocess aeroacoustic results.
庐山温泉度假村
Prerequisites
This tutorial assumes that you are familiar with the FLUENT interface and that you have a good understanding of basic tup and solution procedures.Some steps will not be shown explicitly.
In this tutorial you will u the acoustics model.If you have not ud this feature before,first read Chapter21,Predicting Aerodynamically Generated Noi,of the FLUENT6.2 Ur’s Guide
Modeling Flow-Induced (Aeroacoustic)Noi Problems Using FLUENT Problem Description
The problem considers turbulent air flow over a 2D circular cylinder at a free stream ve-locity (U)of 69.2m/s.The cylinder diameter (D)is 1.9cm.The Reynolds number bad on the diameter is 90,000.The computational domain (Figure 1)extends 5D upstream and 20D downstream of the cylinder.
我的妹妹来自邻国
U = 69.2 m/s    D = 1.9 cm
Figure 1:Computational Domain
Preparation
1.Copy the file cylinder2d.msh to your working directory.
2.Start the 2D version of FLUENT .大班谈话活动
Approximately 2.5hours of CPU time is required to complete this tutorial.If you are interested exclusively in learning how to t up the acoustics model,you can reduce the computing time requirements considerably by starting at Step 7and using the provided ca and data files.
福昕软件(C)2005-2010,版权所有,仅供试用。柏子仁丸
Modeling Flow-Induced (Aeroacoustic)Noi Problems Using FLUENT
Step 1:Grid
1.Read the grid file cylinder2d.msh .File −→Read −→Ca...
As FLUENT reads the grid file,it will report its
progress in the console window.
Since the grid for this tutorial was created in meters,there is no need to rescale the grid.Check that the domain extends in the x-direction from -0.095m to 0.38m.
2.Check the grid.
Grid −→Check
FLUENT will perform various checks on the mesh and will report the progress in the console window.Pay particular attention to the reported minimum volume.Make sure this is a positive number.
3.Reorder the grid.
Grid −→Reorder −→Domain
To speed up the solution procedure,the mesh should be reordered,which will substan-tially reduce the bandwidth and make the code run faster.
FLUENT will report its progress in the console window:
>>Reordering domain using Rever Cuthill-McKee method:
zones,cells,faces,done.
Bandwidth reduction =32634/253=128.99
Done.
福昕软件(C)2005-2010,版权所有,仅供试用。
Modeling Flow-Induced(Aeroacoustic)Noi Problems Using FLUENT
4.Display the grid.
Display−→
(a)Display the grid with the default ttings(Figure2).
U the middle mou button to zoom in on the image so you can e the mesh
near the cylinder(Figure3).
Figure2:Grid Display初中物理公式
Modeling Flow-Induced(Aeroacoustic)Noi Problems Using
FLUENT
Figure3:The Grid Around the Cylinder
Quadrilateral cells are ud for this LES simulation becau they generate
less numerical
diffusion than triangular cells.The cell size should be small enough to
capture the relevant turbulence length scales,and to make the numerical diffusion
抓周礼smaller than the subgrid-scale turbulence viscosity.The mesh for this tutorial
has been kept coar in order to speed up the calculations.
本页已使用福昕阅读器进行编辑。
福昕软件(C)2005-2010,版权所有,
仅供试用。

本文发布于:2023-07-24 10:57:30,感谢您对本站的认可!

本文链接:https://www.wtabcd.cn/fanwen/fan/82/1114458.html

版权声明:本站内容均来自互联网,仅供演示用,请勿用于商业和其他非法用途。如果侵犯了您的权益请与我们联系,我们将在24小时内删除。

标签:试用   仅供   阅读器   邻国   度假村   谈话   物理   进行
相关文章
留言与评论(共有 0 条评论)
   
验证码:
推荐文章
排行榜
Copyright ©2019-2022 Comsenz Inc.Powered by © 专利检索| 网站地图