کارگاه آموزش نرم افزار فلوئنت (Fluent)

Introduction

This tutorial will teach you the basic turbulence modeling techniques in FLUENT and show you why it is important to specify profiles for turbulence quantities when specifying a velocity profile at the inlet boundary
This tutorial is based on an incompressible, turbulent backward-facing step flow measured experimentally by Driver and Seegmiller. You will use the upgraded k-omega turbulence model in FLUENT to simulate the flow and validate the turbulence model

Problem Description

A schematic of the backward step in a wind tunnel is shown in the following figure

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Introduction

The purpose of this tutorial is to provide guidelines and recommendations for solving a gas-liquid bubble column problem using the multiphase mixture model, including advice on solver settings

This tutorial demonstrates how to do the following

 Set up an unsteady bubble column

Use the mixture multiphase model

 Solve the problem using appropriate solver settings

Post-process the resulting data

Problem Description

The representation of the problem is shown in Figure. The gas-liquid bubble flow is in a flat bubble column with rectangular cross-section and essentially two-dimensional flow pattern

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Introduction

This tutorial examines the the flow of water around a torpedo. Cavitation occurs in many applications as a result of flow acceleration over a body surface. Vapor production is localized at
the wall where the pressure is below the vaporization pressure,so grid renement and the use of non-equilibrium wall functions improve the accuracy of the simulation. The case is taken from a
paper by Kunz et al. [1]. Using FLUENT's multiphase modeling capability, you will be able to predict the inception of cavitation near the nose of the torpedo

Problem Description

The problem considers the cavitation caused by the flow of water around a torpedo at an incidence angle of zero and a free-stream velocity of 1 m/s. The torpedo diameter is 0.136 m. The geometry of the torpedo is shown in Figure

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در این مجموعه موارد زیر آموزش داده شده است:

Introduction
The purpose of this tutorial is to investigate the free surface movement of liquid fuel in a tank under varying acceleration scenarios and to determine the most suitable configuration of the fuel tank to ensure continuous fuel supply through the pick-up pipe
Two conconfiguration of the fuel tank are considered|tank with internal baffles and tank without internal baffles. You will compare the two configuration on the basis of liquid interface and velocity vector plots generated for each case.This tutorial demonstrates how to do the following

Set up and solve a transient problem using the pressure-based solver and the VOF model

 Define parameters specific to the Non-Iterative Time Advancement (NITA) scheme

 Create a journal file to track the liquid interface with time

 Request automatic execution of commands to create images for post-processing

Compare the two configuration  on the basis of liquid interface and velocity vector plots generated

Introduction
This tutorial illustrates how to setup and run a vane pump analysis in FLUENT 6.3.This tutorial demonstrates how to do the following

Create an initial mesh

Set up a problem for a dynamic mesh

 Specify the motion of dynamic zones using a compiled user-defined function- UDF

 Preview the dynamic mesh before starting the calculation

Perform transient dynamic mesh calculation

Post-process the resulting data

Prerequisites
This tutorial assumes that you are familiar with the FLUENT interface. Some of he basic steps in the setup and solution procedures will not the basic steps in the setup and solution procedures will not be shown explicitly. You should be familiar with the dynamic mesh model and UDFs. Refer to the FLUENT 6.3 User's Guide and the FLUENT UDF Manual for more information

برای مشاوره و انجام پروژه های دانشجویی و پایان نامه (کارشناسی، کارشناسی ارشد و دکترا) و همچنین پروژهای صنعتی (مکانیک، هوافضا، شیمی، نفت و گاز و ...) در زمینه های ذیل با ما تماس بگیرید:

• جریان های داخلی و خارجی
• انواع جریان های چند فازی 
• مدل سازی احتراق (گاز، مایع)
• انتقال حرارت (تهویه مطبوع، جابجایی آزاد، جابجایی اجباری)
• آکوستیک
• پیل سوختی
• توربو ماشین ها (پمپ،کمپرسور، توربین و ...)
• ...

راه های تماس :

Telephone : 09376567026     

E-mail      : h.barootiha@yahoo.com   

Using the Non-Premixed

Availability	File
	Tutorial - pdf
	Mesh
	Case and Data
	UDF

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