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  1. For ANSYS jobs, you should always use () as the working directory. The following lines ensure that is created on each node:

~~~ do ssh $node "sleep 5" ssh $node "cp input.txt $TMPDIR" done ~~~

  1. The following line runs the ANSYS program, specifying various options such as the path to the file, the scratch directory to use, etc.,

~~~ ansys195 -dir $TMPDIR -j EXAMPLE -s read -l en-us -b -i input.txt -o output.txt -dis -machines $machines -usessh ~~~

  1. Finally, the following lines copy all the data from :

~~~ do ssh $node "cp -r $TMPDIR/* $PBS_O_WORKDIR" done ~~~

To submit the job:

After job completion, you will see the job submission directory () populated with various files:

If everything went well, ANSYS 19.5 Download Archives, the job output file () should look like this:

The results file () contains the results of the simulation which can be viewed using the ANSYS APDL graphical interface:

COMSOL

COMSOL is an application for solving Multiphysics problems. To see the available COMSOL modules on Palmetto:

To see license usage of COMSOL-related packages, you can use the command:

Graphical Interface

To run the COMSOL graphical interface, you must log-in with X11 tunneling enabled, and then ask for an interactive session:

Once logged-in to an interactive compute node, to launch the interactive viewer, you can use the command to run COMSOL:

The option can be used to specify the number of CPU cores to use. Remember to always use as the working directory for COMSOL jobs.

Batch Mode

To run COMSOL in batch mode on Palmetto cluster, you can use the example batch scripts below as a template. The first example demonstrates running COMSOL using multiple cores on a single node, while the second demonstrates running COMSOL across multiple nodes using MPI, ANSYS 19.5 Download Archives. You can obtain the files required to run this example using the following commands:

Both of these examples run the "Heat Transfer by Free Convection" application described here. In addition to the and scripts, to run the examples and reproduce the results, you will need to download the file (choose the correct version) provided with the description (login required).

COMSOL batch job on a single node, using multiple cores:

COMSOL batch job across several nodes.

Comsol by default uses its own ANSYS 19.5 Download Archives mpi. However, the default intel mpi is not compatible with Palmetto's OS. Therefore, you need to force Comsol to use intel mpi installed in Palmetto:

GROMACS

  • Gromacs is an architecture-specific software. It performs best when installed and configured on the specific hardware.
  • To simplify the process of setting up gromacs, we recommend that you set up your local spack using instructions from the following links.

  • Get a node (choose the node type you wish to run Gromacs on)

  • Identify architecture type:

Select the crrect architecture based on the CPU model:

  • E5-2665: sandybridge
  • E5-2680: sandybridge
  • E5-2670v2: ivybridge
  • E5-2680v3: haswell
  • E5-2680v4: broadwell
  • 6148G: skylake
  • 6252G: cascadelake
  • 6238R: cascadelake

In this example, given the previous command, we most likely will get a broadwell node:

Installing cuda

You should remember the hash value of the cuda installation for later use.

Installing fftw

Installing gromacs

Gromacs will now be available in your local module path

Running GROMACS interactively

As an example, we'll consider running the GROMACS ADH benchmark.

First, request an interactive job:

After the last command above completes, the and files produced by GROMACS should be visible. Typically, the next step is to copy these results to the output directory:

Running GROMACS in batch mode

The PBS batch script for submitting the above is assumed to be inside and this directory already contains the input files:

HOOMD

Run HOOMD

Now the HOOMD-BLUE v2.3.5 has been installed. Create a simple python file “test_hoomd.py” to run HOOMD

If you have logged out of the node, request an interactive session on a GPU node and add required modules:

Run the script interactively:

Alternatively, you can setup a PBS job script to run HOOMD in batch mode. ANSYS 19.5 Download Archives sample is below for Test_Hoomd.sh:

Submit the job:

This is it

Java

The Java Runtime Environment (JRE) version 1.6.0_11 is currently available cluster-wide on Palmetto. If a user needs a different version of Java, or if the Java Development Kit (JDK, which includes the JRE) is needed, that user is encouraged to download and install Java (JRE or JDK) for herself. Below is a brief overview of installing the JDK in a user's /home directory.

JRE vs. JDK

The JRE is basically the Java Virtual Machine (Java VM) that provides a platform for running your Java programs. The JDK is the fully featured Software Development Kit for Java, including the JRE, compilers, and tools like JavaDoc and Java Debugger used to create and compile programs.

Usually, when you only care about running Java programs, the JRE is all you'll need. If you are planning to do some Java programming, you will need the JDK.

Downloading the JDK

The JDK cannot be downloaded directly using the wget utility because a user must agree to Oracle's Java license ageement when downloading. So, download the JDK using a web browser and transfer the downloaded file to your ANSYS 19.5 Download Archives on Palmetto using, or FileZilla:

Installing the JDK

The JDK is distributed in a Linux x86_64 compatible binary format, so once it has been unpacked, it is ready to use (no need to compile). However, you will need to setup your environment for using this new package by adding lines similar to the following at the end of your file:

Once this is done, you can log-out and log-in again or simply source your file and then you'll be ready to begin using your new Java installation.

Julia

Julia: high-level dynamic programming language that was originally designed to address the needs of high-performance numerical analysis and computational science.

Run Julia in Palmetto: Interactive

There are a few different versions of Julia available on the cluster.

Let demonstrate how to use julia/1.1.1 in the Palmetto cluster together with Gurobi Optimizer (a commercial optimization solver for linear programming), quadratic programming, etc. Clemson University has different version of licenses for Gurobi solver. In this example, I would like to use Julia and Gurobi solver to solve a linear math problem using Palmetto HPC

Let prepare a script to solve this problem, named: jump_gurobi.jl. You can save this file to: /scratch1/$username/Julia/

Then type/copy the following code to the file jump_gurobi.jl

Save the jump_gurobi.jl file then you are ready to run julia:

Run Julia in Palmetto: Batch mode

  • Alternatively, you can setup a PBS job script to run Julia in batch mode, ANSYS 19.5 Download Archives. A sample is below for submit_julia.sh: You must install the JuMP and Gurobi package first (one time installation)

Submit the job:

The output file can be found at the same folder: output_JuMP.txt

Install your own Julia package using conda environment and running in Jupyterhub

In Office 2010 Professional crack serial keygen to traditional compilation of Julia, it is possible to install your own version of Julia and setup kernel to work using Jupterhub.

Exit Julia and Start Jupyterhub in Palmetto After spawning, Click on New kernel in Jupyterhub, you will see Julia 1.1.1 kernel available for use

Type in the follwing code to test:

LAMMPS

There are a few different versions of LAMMPS available on the cluster.

Note: letter P, K, V stand for GPU pascal (p100), kepler (k20, k40) and volta (v100)

Installing custom LAMMPS on Palmetto

LAMMPS comes with a wide variety of supported packages catering to different simulation techniques. It is possible to build your own LAMMPS installation on Palmetto. We discuss two examples below, one using with GPU, one using without GPU support.

Reserve a node, and pay attention to its GPU model.

Create a directory named (if you don't already have it) in your home directory, and change to that directory.

  • Create a subdirectory called inside.
  • Download the latest version of lammps and untar.
  • In this example, we use the 20200721, the latest dated version of lammps. You can set up spack (see User Software Installation), then runs to see the latest recommended version of lammps.
  • You can change the name of the untarred directory to something easier to manage.

In the recent versions, ANSYS 19.5 Download Archives, lammps use cmake as their build system. As a result, we will be able to build multiple lammps executables within a single source download.

Lammps build with kokkos and gpu

  • Create a directory called
  • Change into this directory.

In building lammps, you will need to modify two files, both inside directory (this is a relative path assuming you are inside the previously created ). A set of already prepared cmake templates are available insidebut you will have to modify them. It is recommended that you use and as starting points.

For add-on simulation packages, make a copy ofand use as a reference point to see what is needed. Synapse x keygen,serial,crack,generator,unlock,key say we want and in addition to what's in for simulation techniques. We also need to inlcude kokkos.

Use your favorite editor to add the necessary package names (in capitalized form) to. Check the contents afterward, ANSYS 19.5 Download Archives.

  • Next, we need to modify so that is built to the correct architectural specification. For Palmetto, the follow
Palmetto GPU architecturesArchitecture name for Kokkos
K20 and K40KEPLER35
P100PASCAL60
V100 and V100SVOLTA70
  • Since we specified in the initial will need to be modified to use.

  • We will need to load three supporting modules from Palmetto. We will load modules that have been compiled for the specific architecture of v100 nodes.

Running LAMMPS - an example

Several existing examples are in the installed folder: lammps-7Aug19/examples/ Detailes description of all examples are here.

We run an example accelerate using different package Here is a sample batch script for this example:

Lammps build with kokkos and gpu

This is a bit similar to the build with kokkos and gpu. In a non-gpu build, will help manage the OpenMP threads, and the corresponding make file is

Several way to run LAAMPS

For more information on comparison between various accelerator packages please visit: https://lammps.sandia.gov/doc/Speed_compare.html

MATLAB

Checking license usage for MATLAB

You can check the availability of MATLAB licenses using the command:

Running the MATLAB graphical interface

To launch the MATLAB graphical interface, you can use X11 tunneling. Once you get on a compute node, you must load one of the MATLAB modules:

And then launch the MATLAB program:

Warning: DO NOT attempt to run MATLAB right after logging-in (i.e., on the node). Always ask for an interactive job first. MATLAB sessions are automatically killed on the login node.

Running the MATLAB command line without graphics

To use the MATLAB command-line interface without graphics, you can request a compute node, load the Matlab module, ANSYS 19.5 Download Archives, and then use the and options:

This will work on both Windows and Mac platforms. To quit matlab command-line ANSYS 19.5 Download Archives, type:

MATLAB in batch jobs

To use MATLAB in your batch jobs, you can use the switch provided by MATLAB, which lets you run commands specified on the command-line. For example:

will run the MATLAB scriptOr:

will run the MATLAB script and write the output to myscript_results.txt file. Thus, an example batch job using MATLAB could have a batch script as follows:

Compiling MATLAB code to create an executable

Often, you need to run a large number of MATLAB jobs concurrently (e.g,m each job operating on different data). In such cases, you can avoid over-utilizing MATLAB ANSYS 19.5 Download Archives by compiling your MATLAB code into an executable. This can be done from within the MATLAB command-line as follows:

Note: MATLAB will try to use all the available CPU cores on the system where it is running, and this presents a problem when your compiled executable on the cluster where available cores on a single node might be shared amongst multiple users. You can disable this "feature" when you compile your code by adding the ANSYS 19.5 Download Archives, as shown above.

The above command will produce the executablecorresponding to the M-file. If you have multiple M-files in your project and want to create a single executable, you can use a command like the following:

Once the executable is produced, you can run it like any other executable in your batch jobs. Of course, you'll also need the same loaded for your job's runtime environment.

Paraview

Using Paraview+GPUs to visualize very large datasets

Paraview can also use multiple GPUs on Palmetto cluster to visualize very large datasets, ANSYS 19.5 Download Archives. For this, Paraview must be run in client-server mode. The "client" is your local machine on which Paraview must be installed, and the "server" is the Palmetto cluster on which the computations/rendering is done.

  1. The version of Paraview on the client needs to match exactly the version of Paraview on the server. The client must be running Linux. You can obtain the source code used for installation of Paraview 5.0.1 on Palmetto from. Copy this file to the client, extract it and compile Paraview. Compilation instructions can be found in the Paraview documentation.

  2. You will need to run the Paraview server on Palmetto cluster. First, log in with X11 tunneling enabled, and request an interactive session:

In the above example, we request 4 nodes with 2 GPUs each.

  1. Next, launch the Paraview server:

The server will be serving on a specific port number (like 11111) on this node. Note this number down.

  1. Next, you will need to set up "port-forwarding" from the lead node (the node your interactive session is running one) to your local machine. This can be done by opening a terminal running on the local machine, and typing the following:
  1. Once port-forwarding is set up, you can launch Paraview on your local machine,

Pytorch

This page explains how to install the Pytorch package for use with GPUs on the cluster, and how to use it from Jupyter Notebook via JupyterHub.

GPU node

1) Request an interactive session on a GPU node. For example:

2) Load the Anaconda module:

3) Create a conda environment called (or any name you like):

4) Activate the conda environment:

5) Install Pytorch with GPU support from ANSYS 19.5 Download Archives channel:

This will automatically install some packages that are required for Pytorch, like MKL or NumPy. To see the list of installed packages, type

If you need additional packages (for example, Pandas), you can type

6) You can now run Python and test the install:

Each time you login, you will first need to load the required modules and also activate the conda environment before running Python:

Add Jupyter kernel:

If you would like to use Pytorch from Jupyter Notebook on Palmetto via JupyterHub, you need the following additional steps:

1) After you have installed Pytorch, install Jupyter in the same conda environment:

2) Now, set up a Notebook kernel called "Pytorch". For Pytorch with GPU support, do:

3) Create/edit the file in your home directory:

Add the following two lines to the file, then exit.

4) Log into JupyterHub. Make sure you have GPU in your selection if you want to use the GPU pytorch kernel

5) Once your JupyterHub has started, you should see the Pytorch kernel in your list of kernels in the Launcher.

6) You are now able to launch a notebook using the pytorch with GPU kernel:

rclone

is a command-line program that can be used to sync files and folders to and from cloud services ANSYS 19.5 Download Archives as Google Drive, Amazon S3, Dropbox, and many others.

In this example, we will show how to use to sync files to a Google Drive account, but the official documentation has specific instructions for other services.

Setting up rclone for use with Google Drive on Palmetto

To use with any of the above cloud storage services, you must perform a one-time configuration. You can configure to work with as many services as you like.

For the one-time configuration, you will need to log-in with X11 tunneling enabled. After you get on a compute node, load the module:

After is loaded, you must set up a "remote". In this case, we will configure a remote for Google Drive. You can create and manage a separate remote for each cloud storage service you want to use. Start by entering the following command:

Hit n then Enter to create a new remote host

Provide any name for this remote host. For example: gmaildrive

Provide any number for the remote source. For example choose number 2 for goolge drive.

Use y if you are not sure

This will open the Firefox web browser, allowing you to log-in to your Google account, ANSYS 19.5 Download Archives. Enter your username and password then accept to let rclone access your Goolge drive. Once this is done, ANSYS 19.5 Download Archives, the browser will ask you to go back to rclone to continue.

Select y to finish configure this remote host. The gmaildrive host will then be created.

After this, ANSYS 19.5 Download Archives, you can quit the config using q, kill the job and exit this session:

Using rclone

Whenever transfering files (using or otherwise), login to the transfer node .

  • In MobaXterm, create a new ssh session with xfer01-ext.palmetto.clemson.edu as the Remote host
  • In MacOS, open new terminal and

Once logged-in, load the module:

You can check the content of the remote host gmaildrive:

You can use to (for example) copy a file from Palmetto to any folder in your Google Drive:

Or if you want to copy to a specific destination on Google Drive back to Palmetto:

Additional commands can be found here.

Tensorflow

This page explains ANSYS 19.5 Download Archives to install the TensorFlow package for use with GPUs on the cluster, and how to use it from Jupyter Notebook via JupyterHub.

This guide is created primarily for TensorFlow 2+. This version of TensorFlow requires AVX2 support from CPU, which is not available on the older nodes. Currently Palmetto nodes from Phase 12 and up support AVX2.

We will also include notes on how to setup TensorFlow 1. Since TensorFlow 1 distributions are no longer available via pip, the installation instruction will specify local installation pip wheels. The current versions available are, and.

If you are using codes built using TensorFlow 1, please refer to this migration documentation to help with your code.

Installing TensorFlow GPU node

1) Request an interactive session on a GPU node. For example:

2) Load the Anaconda module:

3) Create a directory to store the Python virtual environment packages:

4) Activate the virtual environment:

5) Install TensorFlow:

This will automatically install some packages that are required for Tensorflow, like SciPy or NumPy. If you need additional packages (for example, Pandas), you can ANSYS 19.5 Download Archives Install TensorFlow Jupyter Kernel:

Installing TensorFlow for non-GPU node

1) Request an interactive session without GPU specification. For example:

2) Load the required modules

3) Create a directory to store the Python virtual environment packages:

4) Activate the virtual environment:

5) Install TensorFlow:

This will automatically install some packages that are required for Tensorflow, like SciPy or NumPy. If you need additional packages (for example, Pandas), you can type

6) Install TensorFlow Jupyter Kernel:

Install TensorFlow 1

This example is for tensorflow versionANSYS 19.5 Download Archives. You can change it with or files:

1) GPU

2) CPU

Test TensorFlow Jupyter Kernels

1) Log into JupyterHub. Make sure you have GPU in your selection if you want to use the GPU TensorFlow kernel

2) Once your JupyterHub has started, you should see the TensorFlow kernels in your list of kernels in the Launcher.

3) You are now able to launch a notebook using the one of the TensorFlow with GPU kernel:

For Tensorflow with GPU support, the notebook cell containing will produce a non-empty list.

Setup Tensorboard

TensorFlow 2+ has included with the installation package. To run TensorBoard, you can leverage the same notebook server.

1) Click the sign near the ANSYS 19.5 Download Archives left corner of the Jupyter Lab interface to open the Launcher. Select a Terminal.

2) Run the following commands (assuming a installation.)

Pay attention to your allocated Palmetto node, as highlight by the red shape in the above image.

3) Follow the instructions shown in Socket Proxy Access to setup proxy access from your local computer. Open the Firefox browser and go to the node from step 2 at port 6006

Example Deep Learning - Multiple Object Detections

This is a demonstration reFX Nexus VST Crack 64-Bit Pro Serial Key Latest Version Archives the tensorflow gpu kernel. Steps for non-gpu kernel are similar.

1) Request an interactive session on a GPU node. For example:

2) Load the Anaconda module:

3) Activate the conda environment:

4) Install supporting conda Halo Infinite Torrent PC Full Game Download (CPY Crack) Setup TensorFlow's Model directory:

Open Jupyter Server, change into the directory, then open and run the notebook.

Singularity

Singularity is a tool for creating and running containers on HPC systems, similar to Docker.

For further information on Singularity, and on downloading, building and running containers with Singularity, please refer to the Singularity documentation. This page provides information about singularity specific to the Palmetto cluster.

Running Singularity

Singularity is installed on all of the Palmetto compute nodes and the Palmetto LoginVMs, but it IS NOT present on the login.palmetto.clemson.edu node.

To run singularity, you may simply run or more specifically .

e.g.

An important change for existing singularity users

Formerly, Palmetto administrators had installed singularity as a "software ableton live 10 standard Archives s on Palmetto, but that is no longer the case. If your job scripts have any statements that use the singularity module, then those statements will need to be completely removed; otherwise, your job script may error.

Remove any statements from your job scripts that resemble the following lines:

Where to download containers

Containers can be downloaded from DockerHub

Example: Running ANSYS 19.5 Download Archives using Singularity

As an example, we consider installing and running the OpenFOAM CFD solver using Singularity. OpenFOAM can be quite difficult to install manually, but singularity makes it very easy. This example shows how to use singularity interactively, but singularity containers can be run in batch jobs as well.

Start by requesting an interactive job.

NOTE: Singularity can only be run on the compute nodes and Palmetto Login VMs:

We recommend that all users store built singularity images in their directories. Singularity images can be quite large, so be sure to delete unused or old images:

Next, we download the singularity image for OpenFOAM from DockerHub. This takes a few seconds to complete:

Once the image is downloaded, we are ready to run OpenFOAM. We use to start a container, and run a shell in the container.

The option is used to "bind" the directory to a directory named in the container.

We also the option to specify the working directory in the running container (in this case ). This is always recommended.

Typically, the working directory may be the $TMPDIR directory or one of the scratch directories.

Before running OpenFOAM commands, we need to source a few environment variables (this step is specific to OpenFOAM):

Now, we are ready to run a simple example using OpenFOAM:

The simulation takes a few seconds to complete, and should finish with the following output:

We are now ready to exit the container:

Because the directory was bound tothe simulation output is available in the directory :

GPU-enabled software using Singularity containers (NVIDIA GPU Cloud)

Palmetto also supports use of images provided by the NVIDIA GPU Cloud (NGC).

The provides GPU-accelerated HPC and deep learning containers for scientific computing. NVIDIA tests HPC container compatibility with the Singularity runtime through a rigorous QA process.

Pulling NGC images

Singularity images may be pulled directly from the Palmetto GPU compute nodes, an interactive job is most convenient for this, ANSYS 19.5 Download Archives. Singularity uses multiple CPU cores when building the image and so it is recommended that a minimum of 4 CPU cores are reserved. For instance to reserve 4 CPU cores, 2 NVIDIA Pascal GPUs, for 20 minutes the following could be used:

Wait for the interactive job to give you control over the shell.

Before pulling an NGC image, authentication credentials must be set. This is most easily accomplished by setting the following variables in the build environment.

More information describing how to obtain and use your NVIDIA NGC API key can be found here.

Once credentials are set in the environment, we’re ready to pull and convert the NGC image to a local Singularity image file. The general form of this command for NGC HPC images is:

This singularity build command will download the NGC Docker image, convert it to Singularity format, and save it to the local file named local_image.

For example to pull the namd NGC container tagged with version 2.12-171025 to a local file named we can run:

After this command has finished we'll have a Singularity image file, :

Running NGC containers

Running NGC containers on Palmetto presents few differences from the run instructions provided on NGC for each application. Application-specific information may vary so it is recommended that you follow the container specific documentation before running with Singularity. If the container documentation does not include Singularity information, then the container has not yet been tested under Singularity.

As all NGC containers are optimized for NVIDIA GPU acceleration we will always want to add the flag to enable NVIDIA ANSYS 19.5 Download Archives support within the container.

The Singularity command ANSYS 19.5 Download Archives represents the standard form of the Singularity command used on the Palmetto cluster. It will mount the present working directory on the host to in the container process and set the present working directory of the container process to This means that when our process starts it will be effectively running in Sony vegas keygen,serial,crack,generator,unlock,key host directory the singularity command was launched from.

Источник: [https://torrent-igruha.org/3551-portal.html]
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Ansys Ekm Users Guide

ANSYS, Inc. Release 17.0


Southpointe January 2016
2600 ANSYS Drive
Canonsburg, PA 15317 ANSYS, Inc. is
ansysinfo@ansys.com certified to ISO
9001:2008.
http://www.ansys.com
(T) 724-746-3304
(F) 724-514-9494
Copyright and Trademark Information

© 2015 SAS IP, Inc. All rights reserved. Unauthorized use, distribution or duplication is prohibited.

ANSYS, ANSYS Workbench, Ansoft, AUTODYN, EKM, Engineering Knowledge Manager, CFX, FLUENT, HFSS, AIM
and any and all ANSYS, Inc. brand, product, service and feature names, logos and slogans are registered trademarks
or trademarks of ANSYS, Inc. or its subsidiaries in the United States or other countries. ICEM CFD is a trademark
used by ANSYS, Inc. under license. CFX is ANSYS 19.5 Download Archives trademark of Sony Corporation in Japan. All other brand, product,
service and feature names or trademarks are the property of their respective owners.

Disclaimer Notice

THIS ANSYS SOFTWARE PRODUCT AND PROGRAM DOCUMENTATION INCLUDE TRADE SECRETS AND ARE CONFID-
ENTIAL AND PROPRIETARY PRODUCTS OF ANSYS, INC., ITS SUBSIDIARIES, OR LICENSORS. The software products
and documentation are furnished by ANSYS, ANSYS 19.5 Download Archives, Inc., its subsidiaries, or affiliates under a software license agreement
that contains provisions concerning non-disclosure, copying, length and nature of use, compliance with exporting
laws, warranties, disclaimers, limitations of liability, ANSYS 19.5 Download Archives, and remedies, and other provisions. The software products
and documentation may be used, disclosed, transferred, or copied only in accordance with the terms and conditions
of that software license agreement.

ANSYS, Inc. is certified to ISO 9001:2008.

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For U.S. Government users, except as specifically granted by the ANSYS, Inc, ANSYS 19.5 Download Archives. software license agreement, the use,
duplication, or disclosure by the United States Government is subject to restrictions stated in the ANSYS, Inc.
software license agreement and FAR 12.212 (for non-DOD licenses).

Third-Party Software

See the legal information in the product help files for the complete Legal Notice for ANSYS proprietary software
and third-party software. If you are unable to access the Legal Notice, Contact ANSYS, Inc.

Published in the U.S.A.


Table of Contents
Using This Guide . xiii
1. What is EKM? . 1
1.1. Data Management and the EKM Repository . 3
1.2. Process Management . 4
1.3. EKM Architecture . 4
1.4. EKM Customization . ANSYS 19.5 Download Archives 1.5. New Features in Release 17.0 . 7
1.6. Contacting Technical Support . 7
2. The EKM Environment . 9
2.1. General Layout . 10
2.2. Main EKM Sections . 12
2.2.1. Home Section . 12
2.2.2. Data Section ., ANSYS 19.5 Download Archives. 12
2.2.3. Jobs Section . 13
2.2.4. Processes Section . 14
2.2.5. Administration Section . 15
2.3. Navigating in EKM . 17
2.3.1. Navigating to Different Sections and Pages . 17
2.3.2. Using the Breadcrumb . 18
2.3.3. Displaying the Tree . 18
2.3.4. Using the Search Box to Navigate to an Object . 19
2.4. View Window . 20
2.5. Toolbars and Menus . 21
2.6. Wizards and Dialog Boxes . 22
2.7. Applications Panel . 23
2.8. Workspace Access . 26
2.9. Access Level . 26
2.10. User Menu . 26
2.11. Getting Help . 27
3. Launching EKM . 29
3.1. Launching the EKM Web Client . 29
3.1.1. Connecting to a Different Workspace . 33
3.1.2. Making Simultaneous Connections . 34
3.1.3. Signing Out of the EKM Web Client . 35
4. Accessing an EKM Server . 37
4.1. Accessing an EKM Server from ANSYS Workbench . 37
4.2. Accessing an EKM Server from the EKM Web Client . 38
5. Customizing EKM for Your Own Use . 41
ANSYS 19.5 Download Archives 5.1. Setting Up Your Dashboard . 41
5.1.1. ANSYS 19.5 Download Archives Up Dashboard Gadgets . 42
5.1.1.1. Container Gadget . 43
5.1.1.2. File Gadget . 44
5.1.1.3. Discussion Board Gadget . 46
5.1.1.4. Extraction Monitor Gadget . 47
5.1.1.5. Job Monitor Gadget . 48
5.1.1.6, ANSYS 19.5 Download Archives. Process Monitor Gadget . 49
5.1.1.7. My Tasks Gadget ., ANSYS 19.5 Download Archives. 50
5.1.1.8. Saved Query Gadget ., ANSYS 19.5 Download Archives. 51
5.1.1.9. URL Gadget . 52
5.1.2. Rearranging Gadgets . 53

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User's Guide

5.1.3. Resizing Gadgets . 54


5.1.4. Editing Gadgets . 54
5.1.5. Removing Gadgets . 55
5.2. Managing Personal Applications . 55
5.3. Managing Personal Queries . 56
5.4. Accessing the Recycle Bin . 57
5.5. Setting Your User Profile . 59
5.6. Setting Your Preferences . 60
5.6.1. Specifying General Preferences . 60
5.6.2. Specifying List Display Preferences . 64
5.6.2.1. Specifying Column Order Preferences for the List Display . 65
5.6.3. Specifying File Extension Preferences . 66
5.6.4. Specifying the Recycle Bin Preference . 67
5.6.5. Specifying File Transfer Client Preferences . 68
5.6.5.1. Configuring the File Transfer Client to Use a Proxy Server . 69
5.6.5.2. Configuring the File Transfer Client to Trust an EKM Server . 70
5.6.6. Specifying Job Management Preferences ., ANSYS 19.5 Download Archives. 70
5.7. Setting the Alert Frequency . 71
5.8. Defining Connections to Other Repositories . 72
6. Object Types and Properties . 75
6.1. Object Types . 75
6.1.1. EKM Object Type . 75
6.1.2. Built-In Types . 77
6.1.3. Custom Types and Extended File Formats . 77
6.2. ANSYS 19.5 Download Archives Properties ., ANSYS 19.5 Download Archives. 77
7. Transferring Files . 79
7.1. Uploading Files to EKM . 79
7.1.1. Uploading Files/Archives Using the Web Client Browser . 81
7.1.2. Uploading Files Using the File Transfer Client . 88
7.1.3. Uploading Files from the Server . 98
7.2. Assignment of Object Type on Upload . 100
7.3. Automatic Extraction of Data on Upload . 101
7.4. Automatic Creation of Simulation Details Reports on ANSYS 19.5 Download Archives . 103
7.5. Automatic Extraction of Images on Upload . 104
7.6. Monitoring Data Extraction . 104
7.7. Extracting Data On Demand . 106
7.8. Downloading Files from EKM . 107
7.8.1. Viewing a Folder’s Size Before Downloading . 108
7.8.2. Downloading Files/Folders Using the Web Client Browser . 109
7.8.3. Downloading Files/Folders Using the EKM File Transfer Client . 110
7.8.4. Downloading a File or Folder to the Server ., ANSYS 19.5 Download Archives. 115
7.9. Using a Cache System for WAN Transfers . 115
8. Managing Repository Data . 117
8.1. Navigating the Repository . 118
8.1.1. My Data . 119
8.1.2. Shared Data . 120
8.1.3. Starred Data . 120
8.1.4. Recent Data . 120
8.1.5. Extraction Monitor . 120
8.2. Accessing Sample Files . 121
8.3. Creating New Objects . 123
8.3.1. Creating a New Folder . 124

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ANSYS 19.5 Download Archives User's Guide

8.3.2. Creating a New Shortcut . 126


8.3.3. Creating a Connection to a Remote File or Folder . 127
8.3.4. Creating a Connection to a URL ., ANSYS 19.5 Download Archives. 129
8.3.5, ANSYS 19.5 Download Archives. Creating a New Discussion Board . 130
8.3.6. Creating a New Object . 131
8.4. Opening Objects . 133
8.5. Editing Objects . 133
8.5.1. Copying Objects . 134
8.5.2. Moving Objects . 135
8.5.3. Getting Exclusive Control of an Object . 136
8.5.4. Renaming Objects . 137
8.5.5. Editing Permissions . 137
8.5.6. Editing Object Properties . 141
8.5.6.1. Setting Property Values . 141
ANSYS 19.5 Download Archives 8.5.6.2. Adding/Removing Properties . 144
8.5.6.3. Editing Properties for Multiple Files . 149
8.5.6.4. Editing the Properties of a Folder . 150
8.5.7. Editing Alert Settings . 151
8.5.8. Editing Automatic Deletion Settings . 152
8.5.9. Editing Shortcuts . 153
8.5.10. Editing an Object’s Type . 154
8.5.11. Editing the Content of a File . 155
8.5.12. Editing the Created By Property (Admin Only) . 157
8.5.13. Editing a Lifecycle in EKM Studio ., ANSYS 19.5 Download Archives. 158
8.5.14. Editing a Process Template in EKM Studio . 158
8.5.15. Extracting Data on Demand . 158
8.5.16. Editing Remote Item Properties . 159
8.5.17. Editing a File’s Pedigree . 160
8.6. Deleting Objects ., ANSYS 19.5 Download Archives. 160
8.7. Displaying Objects . 161
8.7.1. Displaying the Content of a File . 162
8.7.2. Displaying an Object’s Dependencies . 162
8.7.3. Viewing ANSYS 19.5 Download Archives Models and Images . 164
8.7.3.1. Setting the ANSYS 19.5 Download Archives . 166
8.7.3.2. Controlling the Visibility of Individual Faces . 166
8.7.3.3. Interacting with 3D Images . 167
8.7.4. Displaying a List of Contents . 168
8.7.5. Displaying the Permissions on an Object . 168
8.7.6. Displaying Object Properties . 168
8.7.7. Displaying Revision History . 169
8.7.8. Displaying a Simulation Details Report . 169
8.8, ANSYS 19.5 Download Archives. Filtering the View . 170
8.9. Displaying Project Files . 174
8.10. Extracting Archives . 174
8.11. Synchronizing Remote Objects . 177
8.12. Creating Shortcuts to Objects . 178
8.13. Emailing Links to Objects . 179
9. Version Control and ANSYS 19.5 Download Archives Management . 181
9.1. Controlling Access to Objects . 181
9.2. Getting Exclusive Control . 182
9.3. Releasing Exclusive Control . 183
9.4. Adding Objects to Version Control . 184

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9.5. Identifying Objects Under Version Control . 185


9.6. Modifying Objects Under Version Control . 185
9.6.1. Check Out . 186
9.6.2. Check In . 186
9.6.3. Undo Checkout . 187
9.7. Creating a Branch . 188
9.8. Reverting to a Previous Version . 189
9.9. Getting a Copy of a Version . 189
9.10. Removing Objects From Version Control . 190
9.11. Viewing Revision History . 191
10. Searching a Repository . 195
10.1. Searching by Keyword . 196
10.1.1. Starting a Keyword Search . 197
10.1.2. Rules and Restrictions for Keyword Searches . 197
10.1.3. Using Expanded Word Syntax to Define Keywords . 197
10.2. Performing an Advanced Search . 199
10.2.1. Starting an Advanced Search . 200
10.2.2. Specifying Search Criteria . 200
10.2.2.1. Filtering Types and Properties in the Advanced Search Dialog Box . 205
10.2.2.2. Creating Search Expressions . 206
10.3. Searching for an Object by its Path . 209
10.4, ANSYS 19.5 Download Archives. Displaying Search Results . 210
10.5. Searching Results for Report Content . 211
10.6. Managing Queries and Search Results . 215
10.6.1. Saving a Search Query . 215
10.6.2. Saving Search Results . 216
10.6.3. Editing a Query . 217
10.6.4. Expanding a Search to Other Repositories . 217
10.6.5. Executing a Saved Query . 218
10.6.6. Clearing Search Results . 219
10.6.7. Sharing a Query . 219
11. Creating Reports . 223
11.1. Simulation Details Reports ANSYS 19.5 Download Archives. 224
11.1.1. Workbench Project Reports . 226
11.1.2. Copying a Report . 228
11.1.3. Downloading a Report . 229
ANSYS 19.5 Download Archives 11.1.4. Extracting Simulation Details Reports On Demand . 229
11.2. Comparison Reports . 229
11.2.1. Steps for Creating and Using a Comparison Report . 229
11.2.2. Creating a Quick Compare Report . 230
11.2.3. Creating a Customized Comparison Report . 231
11.2.4. Editing a Comparison Report . 239
11.3. Creating a Process Report . 240
11.4. Displaying a Report . 242
11.5. Saving a Report . 243
11.6. Downloading a Report . 243
11.7. Exporting Properties to an Excel File Report . 244
12. Managing Jobs . 245
12.1. Starting a Batch Job . 246
12.1.1. Starting a Batch Job Using the Job Launch Application . 247
12.1.2. Starting a Batch Job from Repository Files . 247
12.1.3. Setting Up a Batch Job . 247

ANSYS 19.5 Download Archives Release 17.0 - © ANSYS, Inc. All rights reserved. - Contains proprietary and confidential information
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ANSYS 19.5 Download Archives User's Guide

12.1.4. Cancelling a Batch Job . 254


12.1.5. Re-executing a Batch Job . 255
12.1.6. Deleting a Batch Job ., ANSYS 19.5 Download Archives. 255
12.2. Running an Interactive Job . 255
12.2.1. Starting an Interactive Job Using the Job Launch Application . 256
12.2.2. Starting an Interactive Job from a Job Template . 257
12.2.3. Starting an Interactive Job from Repository Files . 257
12.2.4. Setting Up an Interactive Job . 258
12.2.5. Connecting to an Interactive Session . 264
12.2.6. Viewing an Interactive Session Log . 264
ANSYS 19.5 Download Archives. Cancelling an Interactive Comodo Antivirus 2021 Crack Plus License Key Free Download . 265
12.3, ANSYS 19.5 Download Archives. Quick Starting a Remote Desktop Session . 266
12.4. Using Job Templates . 266
12.5. Starting a Batch Job from a Job Template . 268
12.5.1. Running a CFX Job from a Built-in Job Template . 269
12.5.2. Running a Fluent Job from a Built-in Template . 275
12.5.3. Running a Mechanical APDL Job from a Built-in Job Template ., ANSYS 19.5 Download Archives. 280
12.5.4. Running an Electronics Job from a Built-in Job Template . 285
12.6. Creating a Custom Job Template . 289
12.7. Editing a Job Template . 304
12.8. Monitoring and Controlling Jobs . 305
12.8.1. Working with Fluent Server-mode Jobs . 307
12.8.1.1. Monitoring a Fluent Solution . 308
ANSYS 19.5 Download Archives. Pausing or Interrupting the Fluent Solution ., ANSYS 19.5 Download Archives. 310
12.8.1.3. Resuming or Restarting a Fluent Solution . 312
12.8.1.4. Setting the Autosave Frequency . 312
12.8.1.5. Specifying Fluent Command Inputs . 313
12.8.1.6. Saving Changes to the Fluent Case File . 313
12.8.1.7. Closing a Fluent Server-mode Job . 314
12.8.2. Working with Mechanical APDL Server-mode Jobs . 314
12.8.2.1. Monitoring an MAPDL Solution . 315
12.8.2.2. Pausing or Interrupting an MAPDL Solution . 316
12.8.2.3. Resuming or Restarting an MAPDL Solution . 317
12.8.2.4. Specifying MAPDL Command Inputs . 317
12.8.2.5. Saving Changes to MAPDL Job Files . 318
12.8.3. Working with Electronics Server-mode Jobs . 318
12.8.3.1. Monitoring an Electronics Solution . 318
12.9. Accessing a Job’s Working Directory . 320
12.9.1. Creating a New Folder in the Working Directory . 322
12.9.2. Uploading Files to the Working Directory . 322
12.9.3. Downloading Working Directory Files to the Repository . 324
12.9.4, ANSYS 19.5 Download Archives. Downloading Working Directory Files to Your Computer . 325
12.9.5. Renaming Files in the Working Directory . 327
12.9.6. Editing the Content of Files in the Working Directory . 328
12.9.7. Moving Working Directory Files to the Server . 328
12.9.8. Copying Working Directory Files to the Server . 329
ANSYS 19.5 Download Archives 12.9.9. Deleting Files in a Job’s Working Directory . 330
12.9.10. Using a Job’s Working Directory for Another Job . 330
12.10. Accessing the RSM Job Log . 331
12.11. Cluster Monitoring . 332
13. Using EKM Mobile . 337
13.1. Launching EKM Mobile . 337

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User's Guide

13.1.1. Browsing the Repository ., ANSYS 19.5 Download Archives. 339


13.1.1.1. Browsing Folders . 340
13.1.1.2. Browsing Files . 341
13.1.2. Searching the Repository . 342
13.1.3. Viewing a Saved Query . 343
13.1.4. Searching Catalogs . 343
13.1.5. Managing Jobs . 344
13.1.6. View EKM Mobile Help . 349
13.1.7. View EKM Mobile Version Information . 349
14. Defining Process Templates in EKM Studio . 351
14.1. Introduction to Process Templates . 351
14.2. Launching EKM Studio . 351
14.3. The EKM Studio Environment . 352
14.3.1. EKM Studio Windows ., ANSYS 19.5 Download Archives. 353
14.3.1.1. Main Editing Window . 353
14.3.1.2. Elements Window . 354
14.3.1.3. Properties Window . 355
14.3.2, ANSYS 19.5 Download Archives. Customizing the Window Layout in EKM Studio . 356
14.3.3. Menu Bar . 357
14.3.3.1. File Menu Options . 357
14.3.3.2. Edit Menu Options . 358
14.3.3.3. View Menu Options . 359
14.3.3.4. Help Menu Options . 359
14.3.4. Toolbar . 359
14.3.5. Getting Help in EKM Studio . 359
14.4. Defining Process Templates in EKM Studio . 360
14.4.1. Process Template Terminology . 360
14.4.2. Steps for Defining a New Process Template . 363
14.4.3. Using Expressions in Process Elements . 364
14.4.4. Defining Process Variables . 366
14.4.4.1. Defining New Variables . 367
14.4.4.2. Viewing the Properties of Variables . 369
14.4.4.3. Editing Variables . 369
14.4.4.4. Renaming Variables ., ANSYS 19.5 Download Archives. 370
14.4.4.5. Deleting Variables . ANSYS 19.5 Download Archives 14.4.5. Defining and Editing Process Nodes . 370
14.4.5.1. Inserting New Nodes . 371
14.4.5.1.1. Inserting a Process Template Node . 372
14.4.5.2. Editing Nodes . 374
14.4.5.2.1. Editing a Node . 374
14.4.5.2.2. Editing a Batch Node . 377
14.4.5.2.3. Editing an Iteration Node . 384
14.4.5.2.4. Editing an Auto Node . 385
14.4.5.2.5. Editing a Monitor Node . 387
14.4.5.2.6. Editing a DOE Node . 387
14.4.5.2.7. Editing an Optimization Node . 390
ANSYS 19.5 Download Archives 14.4.5.2.8. Editing an Update Analysis Project Node . 393
14.4.5.2.9. Editing a Custom Dialog Node . 394
DiskDigger 1.47.83.3121 Crack + License Key (2021) Download 14.4.5.2.10. Editing a Process Template Node . 394
14.4.5.3. Renaming Nodes . 395
14.4.5.4. ANSYS 19.5 Download Archives Nodes . 396
14.4.5.5. Deleting Nodes . 396

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ANSYS 19.5 Download Archives User's Guide

14.4.5.6. Creating and Editing Nested Iterations . 396


14.4.6. Defining and Editing Process Transitions . 397
14.4.6.1, ANSYS 19.5 Download Archives. Inserting Transitions . 397
14.4.6.2. Editing Transitions . 397
14.4.6.3. Renaming Transitions . 398
14.4.6.4. Deleting Transitions . 399
ANSYS 19.5 Download Archives 14.4.7. Editing Validation Expressions . 399
14.4.8. Saving Process Template Files . 400
14.4.9. Opening Process Template Files ., ANSYS 19.5 Download Archives. 402
14.4.10. Correcting an Invalid Layout . 403
14.4.11. Editing Process Attributes . 404
14.5. Using Macros in Process Templates ., ANSYS 19.5 Download Archives. 406
14.6. Displaying a Process Template . 409
15. Defining Custom Dialog Boxes and Wizards in EKM Studio . 411
15.1. Launching the Custom Dialog Editor . 411
15.2. Defining a Sample Dialog Box . 412
15.3. Setting the Operation of the Custom Dialog Box . 417
15.4. Save the New Definition . 418
15.5, ANSYS 19.5 Download Archives. Adding New Steps . 418
15.6. Custom Dialog Node Reference . 419
15.7. Setting the Dimensions of a Custom Dialog Box . 425
15.8. Assigning Custom Dialog Resource Files to a Process Template . 426
16. Starting and Managing Processes . 427
16.1. Starting a Process . 427
16.1.1. Requesting Approval to Make a Process Template Executable . 428
16.1.2. Creating a New Process . 432
16.1.3. Processes with a Single Node/Single User Custom Dialog . 433
16.2. Managing Processes . 434
16.2.1. Accessing ANSYS 19.5 Download Archives Process View . 435
16.2.2. Monitoring the Status of Tasks . 436
16.2.3. Managing Assignees . 437
16.2.4. Viewing the Status and Details of a Process . 437
16.2.5. Cancelling a Process . 439
16.2.6. Deleting a Process . 440
16.3. Managing Tasks Assigned to You . 441
16.3.1, ANSYS 19.5 Download Archives. Viewing the Status and Details of a Task . 442
16.3.2. Starting a Task . 442
16.3.3. Executing a Batch Job . 444
16.3.4. Cancelling a Batch Job . 449
ANSYS 19.5 Download Archives 16.3.5. Completing a Task . 450
16.3.6. Reassigning a Task . 451
16.3.7. Accepting a Reassigned Task . 454
16.4. Automatic Email Notifications Sent From Processes . 455
17. Discussion Boards . 457
17.1. Creating a Discussion Board . 457
17.2. Opening a Discussion Board . 458
17.3. Starting a Discussion . 459
17.4. Inviting People to Join Discussions . 461
17.5. Subscribing to Email Notifications . 463
17.6. Unsubscribing from Email Notifications . 463
17.7. Adding Comments to a Discussion . 463
18. Catalogs . 465

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18.1. Creating a Catalog . 465


18.2. Adding Content to a Catalog . 466
18.3. Automatic Naming of Catalog Objects . 467
18.4. Uploading Files to a Catalog . 468
18.5. Moving a Catalog . 468
18.6. Copying a Catalog . 468
18.7. Downloading a Catalog . 469
18.8. Searching a Catalog . 469
18.8.1. Saving a View . 473
18.8.2. Loading a View . 473
18.8.3. Editing a View . 474
18.8.4. Specifying a Default View . 474
18.8.5. Copying a View ., ANSYS 19.5 Download Archives. 474
ANSYS 19.5 Download Archives 18.8.6. Displaying Information About a View . 475
18.8.7. Deleting a View . 476
18.9. Selecting an Object in a Catalog as a Reference Property Value . 476
18.10. Tutorial: Creating a Widget Catalog . 479
19. Working With ANSYS Workbench Projects . 493
19.1. Displaying Workbench Project Reports . 493
19.2. Saving Workbench Project Archives in EKM . 503
19.3. Parameters in Workbench Projects . 504
19.4. Updating Workbench Projects . 505
19.5. Design Point Studies . 509
19.6. Design Exploration (DX) Studies . 516
19.7. Running Jobs Directly from Stored Workbench Projects . 524
19.7.1. Running a Batch Job from a Workbench Project Sidify Music Converter 2.3.2 Crack Archives. 524
19.7.2. Running an Interactive Job from a Workbench Project . 525
20. Working With Analysis Projects . 527
20.1, ANSYS 19.5 Download Archives. Creating an Analysis Project Folder . 528
20.2. Specifying Analysis Project Pedigree (Inputs and Outputs) . 528
20.3. Specifying File Dependencies . 531
20.4. Displaying Dependencies ., ANSYS 19.5 Download Archives. 531
20.5. Specifying Analysis Execution Settings . 534
20.6. Updating an Analysis Project Folder . 535
20.7. Conducting DOE Studies on Analysis Projects . 537
20.8. Tutorial: Creating a Custom Analysis Project . 538
21. Displaying 3D Simulation Images Using VCollab . 549
21.1. Introduction to VCollab . 549
AGuardDog Web Protection 3.1.0.77 crack serial keygen 21.2. Interacting with 3D Images in the VCollab Viewer . 551
A. Defining a Process Template Using XML . 553
A.1. Translating a Conceptual Process to an EKM Process . 553
A.2. Schema Definition for Process Templates . 556
A.3. Defining an EKM Process Template XML File . 557
A.4, ANSYS 19.5 Download Archives. Defining Variables . 560
A.5. Defining Nodes . 563
A.5.1. Node Type . 564
A.5.2. Auto Node Type . 566
A.5.3. Iteration Node Type . 568
A.5.4. Monitor Node Type . 568
ANSYS 19.5 Download Archives ANSYS 19.5 Download Archives. Batch Node Type ., ANSYS 19.5 Download Archives. 569
A.5.6. Workflow Reference Node Type . 573
A.5.7. DOE Node Type . 574

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lightwave 3d crack Archives ANSYS 19.5 Download Archives User's Guide

A.5.8. Optimization Node Type . 577


A.5.9. Update Analysis Project Node Type . 580
A.5.10. Custom Dialog Node Type . 580
A.5.10.1. User Interface Component Definitions . 581
A.5.10.2. Dialog Step . 581
A.5.10.3. Panel Grid . 582
A.5.10.4. Image . 583
A.5.10.5. Spacer . 583
A.5.10.6. Upload File . 584
A.5.10.7. Command Link . 584
A.5.10.8. Command Button . 585
A.5.10.9. Table . 585
A.6. Defining Transitions . 585
A.7. Defining Blocks . 586
A.8. Defining Expressions . 586
A.9. Defining Macros . 588
A.10. Defining Process Attributes . 590
A.11. Example of a Process Template XML Definition . 590
A.12. Editing an EKM Process Template in EKM Studio . 593
B. Known Issues and Limitations . 595
Glossary ., ANSYS 19.5 Download Archives. 601

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xii of ANSYS, Inc. and its subsidiaries and affiliates.
Using This Guide
The ANSYS Engineering Knowledge Manager (EKM) User's Guide contains detailed information and in-
structions on how to access and use EKM and EKM Mobile. If you are a first-time or novice user, you
should begin by reading the Getting Started With ANSYS EKM guide, which provides you with an intro-
duction to EKM as ANSYS 19.5 Download Archives as a general overview of installing, setting up, configuring, and using EKM.

The EKM User’s Guide includes:

• An overview of EKM concepts and the EKM environment

• A list of new features in this release

• Instructions on how to access EKM from your desktop or mobile device

• Details and step-by-step instructions for each feature in EKM

• A glossary of terms

Because you can interact with an EKM repository using ANSYS Workbench, you will see references to
Workbench in the EKM User’s Guide. However, for details on how to save ANSYS Workbench projects
to an ANSYS 19.5 Download Archives repository and retrieve them from an active Workbench session, ANSYS 19.5 Download Archives, you should consult the
Workbench User Guide.

The EKM User’s Guide does not contain information about the installation or configuration of EKM. For
installation and setup instructions, refer to the EKM Installation Guide. If you want to configure or cus-
tomize an EKM server or workspace, refer to the EKM Administration Guide.

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Chapter 1: What is EKM?
When a company is spread across multiple sites, engineering tools that enable knowledge and processes
to be easily captured, analyzed, shared, reused, and archived can bring a significant advantage. As en-
terprise requirements become more complex and the amount of product, process, and resource inform-
ation generated for a CAE project grows, enterprises that are positioned to capture, manage, and reuse
their intellectual property will have a distinct advantage.

ANSYS EKM is a software system that enables you to manage the data and processes created through
design, simulation, and analysis activities. It facilitates the reuse of information and the capture of en-
gineering knowledge and best practices, which can help reduce your organization's development and
training costs and make better use of resources. These savings can ultimately reduce a product's time-
to-market.

EKM is tightly integrated with ANSYS simulation products, including ANSYS Workbench, Mechanical
APDL, Fluent, CFX, Polyflow, Maxwell, HFSS, Simplorer, and Ansoft Designer, ANSYS 19.5 Download Archives, and can also be integrated
with other third-party simulation products such as Abaqus and Nastran.

What You Can Do with EKM


EKM features can be grouped into three categories: Data Management, Process Management, and Access
Management. A basic overview of features is provided in Figure 1.1: ANSYS EKM Features (p. 2). To-
gether these features facilitate collaboration and productivity in a distributed, multi-user environment.

You can use EKM to:

• Store files in a central location. Create a custom repository that users can access from anywhere.

• Manage access to files, ANSYS 19.5 Download Archives. Set up secure access to the repository and control permissions on individual files
and folders.

• Search and retrieve files. ANSYS 19.5 Download Archives by keyword or by specific object properties to retrieve files of interest.
Save search queries for quick relaunch at any time.

• Analyze and compare data. Automatically extract key data from files upon upload, and view an auto-
generated Simulation Details Report. Create Comparison Reports that compare the properties of two or
more objects. Assemble project-related files such as plots, files, images, and reports into a Report Book that
can be downloaded in XML, HTML, Excel, Word, ANSYS 19.5 Download Archives, and PDF formats and used for presentation purposes.

• Track work. Define object lifecycles and control stage ANSYS 19.5 Download Archives through signoff processes. Set up version
control and use processes to document the actions performed and decisions made during a simulation
process to fulfill audit/regulatory requirements.

• Perform remote simulations. Run jobs in batch or interactive mode. Create job submission templates for
quick job setup.

• Manage jobs. View a job’s status, inputs and outputs, and job submission details. View detailed transcripts
and reports.

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ANSYS 19.5 Download Archives ANSYS 19.5 Download Archives of ANSYS, Inc. and its subsidiaries and affiliates. 1
What is EKM?

Figure 1.1: ANSYS EKM Features

How EKM Works


The EKM server application can be installed and set up ANSYS 19.5 Download Archives a variety of ways, ANSYS 19.5 Download Archives, depending on your business
needs. An EKM server can be partitioned into any number of workspaces. Each workspace can be assigned
to a different set of users. When you sign into EKM, you sign into a specific workspace on the EKM
server, and can switch to another workspace in the same session if needed.

You can access an EKM server with the EKM web client (which opens by connecting via a supported
web browser) and ANSYS Workbench.

EKM has an advanced web-based repository that enables sharing of simulation documents and data
based on user credentials. It serves as a collaboration platform to enable distributed workgroups to
work on the same project. Extraction and report generation capabilities enable team members to display,
interpret, and analyze data efficiently.

EKM enables you to significantly enhance its standard features through simple, yet powerful, configur-
ation changes. Configuration features enable you to create custom applications and process templates
that describe your business process; these can be then managed and monitored from within EKM.

From EKM you can:

• Create new custom data types or extend existing built-in types.

• Define lifecycles and apply them to objects in an EKM repository.

• Define external applications that can be launched by EKM either on the EKM server or on a job submission
system.

Figure 1.1: ANSYS EKM Features (p. 2) shows some of the main features of EKM. The full features of
the product are introduced in the following sections:
1.1. Data Management and the EKM Repository
1.2. Process Management

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ANSYS 19.5 Download Archives Data Management and the EKM Repository

1.3. EKM Architecture


1.4. EKM Customization
1.5. New Features in Release 17.0
1.6. Contacting ANSYS 19.5 Download Archives Support

1.1. Data Management and the EKM Repository


EKM provides a repository that lets you store data in a hierarchical way. You can archive and manage
the data and share it with your collaborators. The repository can be hosted on a dedicated server, dis-
tributed across file servers, or hosted on a desktop machine.

Data in a repository is organized in folders in the Data section. You can organize folders by project, by
team, by simulation, or in any other way that suits your organization's needs. Regardless of your system
configuration, an EKM repository allows transparent collaboration of users and groups in the same
Local Area Network (LAN), or across a Wide Area Network (WAN), through those shared folders.

You can transfer data between your local file system and an EKM repository in several different ways:

• You can use a web browser client to connect to an EKM server and upload and download files using the
web client. The web client allows uploads/downloads of single files or archive files only.

• You can use the EKM File Transfer Client to manage the transfer. EKM File Transfer Client is a powerful client
that lets you transfer multiple files and folders and large-sized files that are >2 GB to multiple EKM repository
connections.

For example, say that your company has two EKM servers installed and set up, one in the United
States on your LAN and one in India across a WAN. If you have an account on a workspace for both
servers, you can create connections to the shared repositories and transfer and manage data in those
repositories using EKM File Transfer Client.

• EKM File Transfer Client can also use caching when you upload/download files across a WAN. The transfer
from cache to EKM server can be done asynchronously, which means that once you have transferred the
files to the local cache service, you can sign out and disconnect your machine, and the time-consuming
process of transferring across a WAN will be managed by the cache service. You can sign in at any time to
monitor the progress and view any errors during the transfer. During download, the cache service is checked
to see whether the requested file exists within the cache. If the file is found locally and has not been modified
on the server, it is returned. This avoids the time-consuming process of downloading large files across a
slow WAN. Otherwise the file is downloaded and cached for future requests. All users in a LAN share the
same cache service. This means that any time a file is downloaded and cached for one user, it will also be
available for a download request by another user.

• In lieu of uploading to EKM, you can create links to remote files and folders that reside on external resources
such as file servers or shared file systems. This way, remote objects can remain in their original location and
a reference to the physical location is maintained in EKM, ANSYS 19.5 Download Archives, eliminating the need for data duplication. You
can use the Synchronize action in EKM to keep saved objects in an EKM repository up-to-date with their
source.

Basic file management operations, such as create, read, update, delete, and edit are provided by EKM.
The content of any object can be displayed with its permissions, properties, and dependencies. Upstream
and downstream dependencies are displayed by a graph and ancestors can be viewed as well. You can
create shortcuts to objects in a repository and EKM will ensure that referential integrity (such as permis-
sions, properties, and so on) is maintained.

Access to objects in EKM can be controlled in the following ways:

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What is EKM?

• By setting permissions on the object

• By placing the object under version control and managing it using EKM's configuration control system

• By getting or releasing exclusive control over the object. Version control allows branches to be managed
and provides an audit trail. Alerts can be set up for an object to notify a user by email when an alert condition
has been met such as when a file or folder has been modified.

Lifecycles are a sequential set of stages that an object such as a file sparkocam folder moves through during its
lifetime. Lifecycles are defined by object type and policies can be defined for each stage such as per-
missions and automatic deletion criteria. You can specify a signoff policy for a stage that requires that
the object be reviewed by an individual or committee before it can be promoted or demoted. Lifecycles
can be defined graphically using EKM Studio, EKM's built-in graphical editor, or written in XML outside
EKM. Once enabled, an object under lifecycle control can be easily monitored in the EKM user interface.

EKM supports a large number of built-in CAE data types, including ANSYS products, in-house codes,
and non-ANSYS tools. It also provides you with the capability to define new custom types and extend
existing types from the EKM user interface. Metadata is automatically extracted from supported CAE
file formats using built-in extractor programs. Additional properties can be extracted by defining a
custom extractor application.

You can perform ANSYS 19.5 Download Archives searches (full text searches) on common file formats such as TXT, DOC, PDF,
PPT, XML, HTML, and RTF. You can also run Advanced Searches on object properties using complex
search criteria. Queries can be saved for later execution or refinement.

Report generation features include automatically-generated reports that are created by EKM, or on-de-
mand reports that you initiate. When a supported CAE file format is uploaded or added to a repository,
EKM creates a simulation details report that extracts key data from the file such as model information
and simulation settings. A special report is generated when you add a Workbench project to EKM. You
can also create Comparison Reports that compare properties or property differences between two or
more objects. Finally, you can assemble files that are associated with an object or project such as ANSYS 19.5 Download Archives, images, and reports into a Report Book that can be downloaded in XML, HTML, Excel, Word, and
PDF formats and used for presentation purposes.

1.2. Process Management


Simple and complex processes can be modeled graphically using EKM Studio, EKM's built-in graphical
editor. You can also define a process template using XML outside EKM and upload it.

Once you have created a process template you can launch a process from it and then execute, manage,
and monitor the process on the Processes/Process Monitor page ANSYS 19.5 Download Archives EKM. In the process view you can
track decisions and actions that are made during the process for completed tasks. This can help in ful-
filling audit requirements that are needed for regulatory compliance.

For information on how to define process templates, refer to Defining Process Templates in EKM Studio.

1.3. EKM Architecture


EKM is a J2EE application that runs on an Application Server. It uses an embedded Content Management
System for managing data and can be accessed by a supported web browser (for example, Internet
Explorer, Chrome or Firefox) or a desktop application through the web services API. It can link to SQL-
compliant RDBMS (Relational Data Base Management System) databases for storing metadata, file
servers for storing file content, and batch execution systems for executing long-running simulation jobs.

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ANSYS 19.5 Download Archives ANSYS 19.5 Download Archives EKM Architecture

EKM stores only the metadata in the database. The file content is stored outside the database on a file
server or other storage location.

Figure 1.2: EKM Architecture

EKM can be run on a single-server or a cluster and is ANSYS 19.5 Download Archives from a single user to multiple users con-
nected in LAN (Local Area Network) or a WAN (Wide Area Network). Multiple EKM repositories can be
connected together to create an efficient system for sharing and transferring simulation files across a
WAN.

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of ANSYS, Inc. and its subsidiaries and affiliates. 5
What is EKM?

Figure 1.3: EKM Distributed Architecture

1.4. EKM Customization


EKM provides a flexible framework that enables a high degree of customization. It utilizes configuration
files you either create or modify to significantly enhance the standard features of the product. These
files can be modified either directly in XML or through a graphical user interface. Most of the configur-
ation changes can be made on a live system without requiring a shutdown or restart of the server.

Possible customizations include:

• Configuring the EKM server

• Defining processes

• Defining new custom types

• Extending existing file formats

• Defining external applications for extracting metadata, images, and simulation details for custom CAE sim-
ulation files formats

• Integrating external applications that can be utilized by batch tasks in a process

A plug-in mechanism provides a powerful method for extending the capabilities of the base EKM system.
Plug-ins can specify business rules, actions, and new user interfaces without altering the base system.

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6 of ANSYS, Inc. and its subsidiaries and affiliates.
Contacting Technical Support

1.5. New Features in Release 17.0


If you have used previous versions of EKM, Release 17.0 offers many significant changes and improve-
ments. ANSYS 19.5 Download Archives new features include:

• Cut, Copy and Paste actions

• Ability to edit gadgets

• Support for SpaceClaim .scdoc files and AIM projects

• A new disableDataExtraction setting

• Transfer details when downloading files

• Ability to define custom views for custom types

• A more robust 3D viewer

• Ability to download a report as a Word document

• Display of session status and error log for interactive sessions in the Job Monitor

• Simplified approval request for process templates

• A new Multi-line value option when defining custom dialog boxes, types, and process templates

• Ability to test or debug a process template

• Script log ANSYS 19.5 Download Archives debugging templates, applications, actions, or macros

• Ability to remove selected built-in hma license key 2020 Archives from a custom type

• A tiered licensing system and per-user Access Level control

For a full list of new features and improvements, see the EKM Release Notes.

1.6. Contacting Technical Support


Technical Support for ANSYS, Inc. products is provided either by ANSYS, Inc. directly or by one of our
certified ANSYS Support Providers. Check with the ANSYS Support Coordinator at your company to
determine who provides support for your company.

If your support is provided by ANSYS, Inc. directly, Technical Support can be accessed quickly and effi-
ciently from the ANSYS Customer Portal at https://www1.ansys.com/customer/default.asp.

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8 ANSYS 19.5 Download Archives of ANSYS, Inc. and its subsidiaries and affiliates.
Chapter 2: The EKM Environment
The features available in the EKM web application depend on the type of machine or device you are
accessing the server from. If you are accessing EKM from a desktop or laptop, you have access to the
full range of EKM features. From a tablet device such as an iPad or Android, however, some features
are not available. This chapter describes the various interface components of the EKM web application.
Actions that are not available on devices are noted, and differences in interface features are called out
when applicable.

The EKM web client is displayed in a browser window. Resizing the browser window resizes the EKM
application. The URL of the current view is displayed in the browser’s address bar. This makes it possible
to bookmark individual views for later retrieval. You can open additional browser tabs and windows
and have multiple EKM sessions running at the same time. See Making Simultaneous Connections (p. 34)
for more information. When navigating, you can use the browser’s back and forward buttons to go to
the previous or subsequent view in your navigation sequence.

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The EKM Environment

Figure 2.1: EKM Web Application (Desktop/Laptop)

Note

The Webstart applications (the File Transfer Client and EKM Studio) require that your client
machine is running Java Runtime Environment (JRE) 1.7.0, update 60 or greater. The File
Transfer Client is a utility used to upload and download files (for example, see Uploading
Files Using the File Transfer Client Dont Starve Together Game Free Download Torrent. 88)). You use EKM Studio to define process templates
(see Launching EKM Studio (p. 351)).

2.1. General Layout


EKM is designed for optimal organization and navigation. Its key features — data management, job
management, and process management — are divided into their own sections. For an overview of each
section, see Main EKM Sections (p. 12).

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10 of ANSYS, Inc. ANSYS 19.5 Download Archives its subsidiaries and affiliates.
General Layout

The title bar at the top of the EKM window provides constant access to global features and settings.
From here you can navigate to different sections, display an application menu, switch to a different
workspace, access online help, edit your profile and settings, and sign out.

Content and features are grouped into five main sections: Home, Data, Jobs, Processes, and Adminis-
tration. You can access a section by selecting it from the main drop box in the top left corner of the
EKM window. See Navigating in EKM (p. 17) for more information.

By default, the Home/Dashboard page is displayed when you launch EKM, but you can specify a different
default page in your settings. See Specifying General Preferences (p. 60) for details. The Administration
section is only visible to administrators, or users who are part of the admin group. Falcon box qualcomm module crack Archives more information
about administrative features and settings, refer to the EKM Administration Guide.

The Applications panel provides quick access to various job launch applications, job templates, and
process templates. See Applications Panel (p. 23) for details.

The title bar identifies the workspace that you are currently signed into, and enables you to switch to
a different workspace if more than one is defined for your EKM server. See Connecting ANSYS 19.5 Download Archives a Different
Workspace (p. 33) for details.

The title bar also displays a help menu, as well as a user icon that you can customize to personalize
your workspace. The menu attached to the user icon provides ANSYS 19.5 Download Archives to your Profile, Settings, Connec-
tions, Recycle Bin, and Sign out options.

As you navigate from section to section, the view in the main window changes. Each section contains
its own action toolbar and different pages to further organize information. A breadcrumb trail shows
you where you are presently within EKM. Dialog boxes and wizards open in response to actions that
you invoke from the application.

For information about navigational aids in EKM, see Navigating in EKM (p. 17).

Note

If you have been assigned a Basic license, ANSYS 19.5 Download Archives, only the Data section will be available, and you
will not have access to Applications or the Recycle Bin. See Licensing and Access in the In-
stallation Guide for details.

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The EKM Environment

2.2. Main EKM Sections


EKM has five main sections: Home, Data, ANSYS 19.5 Download Archives, Jobs, Processes, and Administration. Each section has a
specific set of pages and actions.

2.2.1. Home Section


The default section at startup, the Home section is private to you and cannot be accessed by other
users. A sample is shown in Figure 2.1: EKM Web Application (Desktop/Laptop) (p. 10). The Home section
contains the following pages:

• Dashboard. Displays the information that is most important to you across data, jobs, and processes. By
default, the dashboard displays four gadgets: My Tasks, Job Monitor, Process Monitor, and Extraction
Monitor. These gadgets provide a live snapshot of things that are happening in EKM. You can customize
your dashboard by adding ANSYS 19.5 Download Archives types of gadgets. See Setting Up Your Dashboard (p. 41) for details.

• My Applications. Displays a list of applications, job templates, and process templates that you have saved
for private use. Clicking on an application launches that application. See Applications Panel (p. 23).

• My Queries. Displays a list of search queries that you have saved for private use. Clicking on a query re-ex-
ecutes the search. See Managing Queries and Search Results (p. 215).

• Recycle ANSYS 19.5 Download Archives. Displays a list of objects that you have deleted. Objects can be restored to their original location
if needed. See Accessing the Recycle Bin (p. 57).

Note

The Home section is not available if you have been assigned Basic access.

2.2.2. Data Section


The Data section provides access to the central data repository. Here you can view both private and
shared PaperScan Pro 3.1.248 Crack 2021 + License Key For Lifetime Download. The Data section contains the following pages:

• My Data. Data saved here is private to you and is not visible to any other user.

• Shared Data. Data saved here can be viewed and shared by multiple users. The Shared Data page is displayed
by default when you navigate to the Data section. The actions that are available to you on the Shared Data
page depend on the access level that has been assigned to you. For example, if you have Analyst access
you can view and download objects, but if you have Shared access you can also upload, create, edit and
delete objects. See Licensing and Access in the Installation Guide for details. Restricted permissions may also
be placed on individual objects by their owners, or by members of the admin group.

If you are an admin user, a Sample Files folder will be visible in Shared Data. The Sample Files
folder is a remote folder that maps to the EKM_HOME/examples directory of the EKM ANSYS 19.5 Download Archives. It
contains sample files that you can use when customizing EKM. The figure below provides a snapshot
of the Sample Files folder.

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ANSYS 19.5 Download Archives Main EKM Sections

Figure 2.2: Sample Files Folder

Refer to the README.txt file for instructions on how to use the contents of the Sample Files folder.

• Starred. Displays only those files and folders that you have starred. See Starred Data (p. 120) for details.

• Recent. Displays a list of files and folders that you have recently selected. This enables you to quickly access
those files without having to look for them.

• Extraction Monitor. Enables you to monitor the extraction of metadata and simulation details from files.
See Monitoring Data Extraction (p. 104) for details.

As you navigate through pages and folders in the Data section, the breadcrumb displays the path that
you have taken to get to the current object. You can use the breadcrumb to navigate to other folders
in the sequence, or to other objects in those folders. See Using the Breadcrumb (p. 18) for details. If
you would like to view the hierarchy of pages in the Data section, you can display a tree when needed
(see Displaying the Tree (p. 18)).

The Data section also includes both basic and advanced search features for locating specific files or
types of data. See Searching a Repository (p. 195) for more information.

For information about uploading and downloading data, see Transferring Files (p. 79). For information
about managing files and folders, see Managing Repository Data (p. 117).

2.2.3. Jobs Section


The Jobs section is where you start and monitor jobs. You can also access tools for creating and managing
job templates.

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The EKM Environment

The Jobs section has a single Job Monitor page for monitoring the status of jobs, and various actions
relating to jobs such as Start Job and Execute.

For more information, see Managing Jobs (p. 245).

Note

ANSYS 19.5 Download Archives The Jobs section is not available if you have been assigned Basic access.

2.2.4. Processes Section


The Processes section enables you to start and monitor processes, and complete tasks that have been
assigned to you. You can also access tools for creating and managing process templates.

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14 ANSYS 19.5 Download Archives of ANSYS, Inc. and its subsidiaries and affiliates.
ANSYS 19.5 Download Archives ANSYS 19.5 Download Archives ANSYS 19.5 Download Archives Main EKM Sections

The Processes section has the following pages:

• Process Monitor. Displays a list of processes that have been started and their status (for example, Active,
Cancelled or Complete). Clicking on a process name opens the process in the file list window so that you
can monitor its tasks, ANSYS 19.5 Download Archives details, and so on.

• My Tasks. Displays a list of tasks that have been assigned to you, and their status. Clicking on a task opens
the task in the file list window, enabling you to perform the necessary actions to complete it.

For more information about process management, see Starting and Managing Processes (p. 427).

Note

The Processes section is not available if you have been assigned Basic access.

2.2.5. Administration Section


The Administration section is only visible to users with administrative privileges, ANSYS 19.5 Download Archives. It enables the Root
User, superuser, or members of the admin group to set up and configure an EKM server.

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The EKM Environment

Main features in the Administration section include:

• Workspace Configuration. Used by the user designated as the Root User to configure a workspace. See
Restricted Configuration in the EKM Administration Guide for details.

• Scripting. Used by admin users to record a journal file, run a script, or open a command window. See Scripts
and Journals in the EKM Administration Guide for more details.

• Export Workspace. Used by admin members to export an entire workspace to another EKM server, or to
another location on the same server. The exported workspace can then be imported when creating a new
workspace. See Transferring a Workspace Between EKM Servers in the EKM Administration Guide for details.

• Create Usage Report. Used by administrators to create reports of EKM use by each user. See Gathering
Usage Statistics in the EKM Administration Guide for details.

The Administration section contains the following pages:

• Configuration. Contains settings relating to the current workspace: Custom Types, Lifecycles, Scripts,
Units.xml, and WorkspaceConfig.xml.

• Shared Applications. Contains applications that are available IObit Malware Fighter Crack 8.8.0.850 Pro With Keygen 2021 Download all users, such as Start Batch Job and Start
Interactive Job.

• Servers. Contains definitions for the Job Submission Server, Data Extraction Queue, and Job Submission
Queues.

• Users. Contains a list of users defined in the current workspace.

• Groups. Contains defined user groups. EKM has two predefined groups: admin and all. More can be created.

• Queries. Contains a list of search queries that have been saved as shared queries.

• Remote File Servers. Contains connections to files and folders that are hosted on a remote server.

• Logs. Displays a list of log files that contain details of object transactions.

Refer to the EKM Administration Guide for details on how to perform administrative tasks in EKM.

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16 of ANSYS, Inc. and its subsidiaries and affiliates.
Navigating in EKM

2.3. Navigating in EKM


EKM offers a variety of navigation methods and aids to help you quickly locate the information that
you are looking for. These include:

• A drop box on the title bar to navigate to EKM’s main sections (see Navigating to Different Sections and
Pages (p. 17))

• A horizontal bar to navigate to different pages within a section (see Navigating to Different Sections and
Pages (p. 17))

• A breadcrumb trail (see Using the Breadcrumb (p. 18))

• A tree view in the Data section (see Displaying the Tree (p. 18))

• A search box in which you can enter or paste the path to an object (see Using the Search Box to Navigate
to an Object (p. 19))

• Tabs at the bottom of a view to display different types of information about an object (see View Win-
dow (p. 20))

When navigating, you can also use the browser’s back button to go to the previous view in your navig-
ation sequence.

2.3.1. Navigating to Different Sections and Pages


The ANSYS 19.5 Download Archives box in the top left corner of the EKM window provides top-level navigation control. Making
a selection from this drop box displays one of EKM’s five main sections: Home, Data, Jobs, Processes,
or Administration.

Every main section in EKM has its own set of pages ANSYS 19.5 Download Archives organize data. These are presented in a horizontal
bar just below the title bar:

Clicking on a page displays the content of that page in the main view window.

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of ANSYS, Inc, ANSYS 19.5 Download Archives. and its subsidiaries and affiliates. 17
The EKM Environment

When you navigate to a different section (Home, Data, Jobs, and so on), EKM remembers the last view
displayed in the ANSYS 19.5 Download Archives section and will display this view again when you navigate back to this section.

2.3.2. Using the Breadcrumb


A breadcrumb trail is displayed above the main view window. It lets you know the path that you have
taken to get to a particular object, and provides an additional way of navigating.

Clicking a folder in the breadcrumb trail opens that folder in the main window. Clicking on the arrow
to the right of a folder displays the folder’s contents in a pop-up window, enabling you to navigate to
a different object.

2.3.3. Displaying the Tree


The Data section provides an optional tree view that enables you to visualize repository folders in a
hierarchical manner. The tree is hidden by default.

To display the tree, click the tree icon on the action toolbar.

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Navigating in EKM

• To expand or collapse a folder, click the arrow to the left of its name.

• To open a folder in the file list window, click on its name.

When you select a folder in the tree, its contents (files and folders) are displayed in the view window
on the right. You can invoke actions on the folder by right-clicking on it and making selections from
the pop-up context menu. You can also use the dynamic toolbar above the file list window to invoke
actions on the currently selected folder.

2.3.4. Using the Search Box to Navigate to an Object


If you know or have obtained the path to an object in EKM, you can enter or paste the path in the
search box at the top of the Data section. Assuming that you have entered the path correctly, and that
the object exists, the object will be opened in the view window.

For information about formatting when searching by path, see Searching for an Object by its Path (p. 209).

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ANSYS 19.5 Download Archives of ANSYS, Inc. and its subsidiaries and affiliates. 19
The EKM Environment

2.4. View Window


The view window displays information about the currently selected object. For example, if a folder is
currently selected, the view window displays a list of the objects contained in the folder, and information
about each object such as its name, size and type.

Figure 2.3: View Window

Note

The size shown for a Workbench Project Archive File is the size of all the files in the project,
not the size of the archived file.

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20 ANSYS 19.5 Download Archives of ANSYS, Inc. and its subsidiaries and affiliates.
ANSYS 19.5 Download Archives Toolbars and Menus

At the bottom of the file list window are a set of display tabs. The tabs will vary depending on the page
you are on and the object that you are viewing. In a list view, such as the one you would see in the
Data section, the List tab is the default view and contains a list of all the files and folders that are on
the currently selected page. The Details tab shows the properties, permissions and dependencies of
the currently selected object. On the Discussions tab you can start and participate in discussions about
the object. If the file cannot be viewed in the browser, you are prompted to either save it on disk or
view it in its associated application.

In any view where a list of objects is shown, you can filter the list according to any of the properties
shown. For more information see Filtering the View (p. 170).

Maximizing the View Window


To maximize the view window, click the caret icon at the top of the window:

To restore down the view window, press ESC, or hover near the top ANSYS 19.5 Download Archives the window and click Restore
in the pop-up.

2.5. Toolbars and Menus


The toolbar above the view window contains a variety of tools that you can use to invoke actions on
objects. For example, it provides tools for creating and editing objects, displaying object properties,
uploading and downloading files, creating reports, and so on. The tools that are available on the toolbar
depend on the type of object that is currently selected and the permissions that are set for it. Every
object type has a set of actions that are defined for it. For example, the Folder type has a different set
of actions than the Fluent Case type. If you have Full Control privileges for an object, then the
complete list of allowable actions for the type is presented to you. However, if you have more restricted
permissions, then there will be fewer actions available.

You can invoke an action on a selected object using the menus and buttons on the toolbar.

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ANSYS 19.5 Download Archives of ANSYS, Inc. and its subsidiaries and affiliates. ANSYS 19.5 Download Archives 21
The EKM Environment

You can also invoke an action on an object by right-clicking and selecting items from the context-
sensitive menu.

Important

Right-click context actions are not available on a tablet device. As a workaround, you
can open ANSYS 19.5 Download Archives file, folder, or other object and use the toolbar menus to access the actions.

Note

If an object is selected in the file list window, the actions on the toolbar pertain to that
specific object and not to its parent folder.

2.6. Wizards and Dialog Boxes


Dialog boxes and wizards prompt you for information when you are performing certain actions on objects
within EKM. Wizards are supplied ANSYS 19.5 Download Archives multiple-steps are needed to perform the action. They appear
on the screen and are temporarily displayed until action is taken.

Note

On Android tablet devices, some dialog boxes are not visible in landscape view; they are
visible in portrait view although the font may be unreadable. You can pinch zoom to enlarge
the ANSYS 19.5 Download Archives size.

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22 of ANSYS, Inc. and its subsidiaries and affiliates.
Applications Panel

Specifying the Location of Objects


In most dialog boxes where you need to select an object, clicking Browse displays a panel that contains
the repository file system.

You can navigate to a folder in the following ways:

• Drill down in the tree by clicking folders.

• Enter or paste the path to a folder in the address field, then click. In EKM, paths have the following
general format: /section/page/folder name. For example, if you have created a folder on the My Data
page called Custom, the path to that folder is /Data/My Data/Custom.

When specifying a path using this method, ensure that you include the forward slash / at the beginning
of the path, and that the spelling and case of each folder/file name is correct.

• Click to navigate to the parent folder of the one currently selected.

2.7. Applications Panel


The Applications panel is a dashboard for launching applications. In EKM, applications are tools that
launch a job or process. The following built-in applications are included in the EKM installation:

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The EKM Environment

Figure 2.4: Applications Panel with Built-in Applications

Displaying the Applications Panel


You can display the Applications panel at any time by clicking the Applications icon on the title bar:

Note

The Applications icon is not available if you have been assigned Basic access.

Filtering the Display of Applications


By default the Applications panel displays All available applications. Alternatively you can choose to
display only My Applications, Shared Applications, Starred or Recent applications.

You can filter the type of applications displayed by making a selection from the drop box. Options are:

• All

• Job Templates

• Process Templates

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24 of ANSYS, Inc. and its subsidiaries and affiliates.
Universal Document Converter License Key Archives Applications Panel

• Custom Applications

• Built-in Applications

To control the way applications are visually arranged in the file list window, select the number of
columns in which you would like applications to be displayed from the Columns drop box. The maximum
number of columns permitted is 8.

Your display choices will be remembered and automatically reapplied the next time you display the
Applications panel.

Starring Applications
You can star (bookmark) applications that are of particular interest to you. Starred applications will appear
first in the list of applications, and you can also choose to display only Starred applications if you wish.
To star ANSYS 19.5 Download Archives application, click the application’s star icon. The star will become yellow in color. You can
revert an application’s starred status by clicking the star again.

Note

When starring applications, the list will not immediately update to show starred applications
first. The ANSYS 19.5 Download Archives will be updated the next time you display the Applications panel, or when you
refresh the view.

Launching Applications
You can launch any application on the Applications panel by simply clicking on it.

The following predefined applications are available to all users:

• Start Batch Job (p. 247). Lets you set up and execute a batch job. You are prompted to upload files to the
working directory and specify job submission settings.

• Start Interactive Job (p. 256). Starts a remote desktop session so that you can run jobs interactively.

• Start CFX Job (p. 269). Runs a CFX batch job.

• Start Electronics Job (p. 285). Runs an electronics simulation batch job through Electronics Desktop.

• Start Fluent Job (p. 275). Runs a Fluent batch job.

• Start MAPDL Job (p. 280). Runs a Mechanical APDL batch job.

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of ANSYS, Inc. and its subsidiaries and affiliates. 25
The EKM Environment

Managing Applications
If you want to view or edit existing applications, you can access them from the Applications panel by
clicking the icon in the top right corner of the menu window.

Choices are:

• Manage ANSYS 19.5 Download Archives Applications. Displays the Home/My Applications page.

Manage Shared Applications. Displays the Administration/Shared Applications page (available


to admin users only).

2.8. Workspace Access


When you sign into EKM, you are automatically signed into your default workspace. You can use the
workspace drop box on the title bar to switch to a different workspace when needed. See Connecting
to a Different Workspace (p, ANSYS 19.5 Download Archives. 33) for information about license usage and restrictions when switching
to another workspace.

2.9. Access Level


The access level that has been assigned to you in the current workspace is displayed in the fortnite corner of the application window. Your access level (Shared, Analyst or Basic) determines the
actions that you are able to perform in the workspace. For more information, see Licensing and Access
in the Installation Guide.

2.10. User Menu

The user menu in the top right corner of the application window contains the following items:

• Profile: Enables you to specify personal information such your email address and title, and incorporate a
custom profile photo. See Setting Your User Profile (p. 59).

• Settings: Enables you to specify user preferences, alerts, ANSYS 19.5 Download Archives, and RSM account settings. See Setting Your Prefer-
ences (p. 60).

• Connections: Enables you to capture the sign-in credentials for other EKM repositories. See Defining Con-
nections to Other Repositories (p. 72).

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Getting Help

• Recycle Bin: Displays ANSYS 19.5 Download Archives list of objects that you have deleted from the repository, with the option to restore
selected items if needed. See Accessing the Recycle Bin (p. 57).

• Sign out: Signs you out of EKM and releases your license. See Signing Out of the EKM Web Client (p. 35).

Note

The Recycle Bin option is not available if you have been assigned Basic access. See Licensing
and Access in the Installation Guide for details.

2.11. Getting Help


EKM provides you with interactive help that you can invoke from within the program. There are two
types of help that are accessible from the EKM user interface:

• Contextual help provides help on how to fill out a dialog box or wizard. This help is available when you
click the help button ANSYS 19.5 Download Archives any dialog box.

• User documentation help provides online access to all of the user documentation guides. You can access

help by clicking in the top right corner of the application window.

The Getting Started Guide provides summary information on how you get started setting up
and using EKM. It provides links to other sections in the user documentation guides and is a
good place to go when you want to get a “big picture” view of EKM. The EKM User's Guide is
for all users and provides detailed information on how to use EKM once it is installed, set up,
and configured. The Administration Guide is for EKM admin users and describes how to con-
figure an EKM server and perform other admin actions on an EKM server, once it is installed
and set up. The Installation Guide is for EKM admin users and describes how to install and set
up an EKM server.

When you select the About option, a dialog box opens with information about the software re-
lease.

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of ANSYS, Inc. and its subsidiaries and affiliates. ANSYS 19.5 Download Archives 27
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28 of ANSYS, Inc, ANSYS 19.5 Download Archives. and its subsidiaries and affiliates.
Chapter 3: Launching EKM
This chapter presents detailed information on how you can launch the EKM web client and sign into
an EKM server from a web browser. It assumes that the EKM server you want to connect to has already
been started. See Starting and Stopping the EKM Server in Console Mode in the EKM Installation Guide
for details.

For details on launching EKM Mobile, refer to Launching EKM Mobile (p. 337).

For details on connecting to EKM from ANSYS Workbench, see Accessing an EKM Server from ANSYS
Workbench (p. 37).

3.1. Launching the EKM Web Client


To launch the web client:

1. Open a supported web browser (such as Internet Explorer, Firefox, or Chrome).

Important

• EKM ANSYS 19.5 Download Archives best on Internet Explorer 11+, Firefox 31.0+, and Chrome 36+. You may see a
warning in the sign-in window if you are using a different browser.

EKM is also supported on the following browsers:

– The Safari version in iPad2 and above

– The stock browser in ANDROID 3.1 Honeycomb and above

• If using Internet Explorer, you may need to change your Compatibility View settings in order
for EKM to display and behave properly. In Internet Explorer, go to Tools > Compatibility
View settings and disable the Display intranet sites in Compatibility View option.

2. Type the Fully Qualified Domain Name (FQDN) of the EKM server you want to connect to in the URL address
field and press Enter.

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ANSYS 19.5 Download Archives of ANSYS, Inc. and its subsidiaries and affiliates. 29
Launching EKM

Figure 3.1: Web Browser with Sample URL

For example, in Figure 3.1: Web Browser ANSYS 19.5 Download Archives Sample URL (p. 30) this is

http://ekmServer.mycompany.com:8080/ekm

where

ekmServer is the hostname, mycompany.com is the domain, and 8080 is the port that was
either specified or taken as default when the EKM server was set up.

Note

• The port is optional if the server’s port is the standard port 80. In this case the URL is ht-
ANSYS 19.5 Download Archives tp://ekmServer.mycompany.com/ekm.

• On a secure server, the URL will start with the https:// protocol.

• Using a partial URL instead of the Fully Qualified Domain Name when launching EKM may
result in issues such as not being able to view the content of text and image files in a job’s
working directory.

The EKM sign-in window will appear (Figure 3.2: EKM Sign-in Window (p. 31)), where you can sign
into your default workspace using your sign-in credentials.

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ANSYS 19.5 Download Archives ANSYS 19.5 Download Archives Launching the EKM Web Client

Figure 3.2: EKM Sign-in Window

Note

The background image on the sign-in page may be customized. See Using a Custom
Background Image on the EKM Sign-in Page in the Administration Guide for details.

3. In the sign-in window, ANSYS 19.5 Download Archives, enter your User name and Password. Both are case-sensitive.

If your EKM administrator has chosen to authenticate users to the operating system, use the same
user name and password that you use to sign into your operating system. If users are authenticated
to an LDAP server or Windows Active Directory, the user name may be an OS account name or
some other unique identifier. Consult your EKM administrator for more information. Details about
sign-in authentication can be found in Configuring Login Authentication and Access Settings in
the EKM Installation Guide.

4, ANSYS 19.5 Download Archives. ANSYS 19.5 Download Archives Click Sign In or press Enter on your keyboard. You will be automatically signed into your default workspace.
For more information about how the default workspace is set, refer to Table 8.2: Login-related Access
Settings in the EKM Installation Guide.

ANSYS 19.5 Download Archives Note

If automatic account creation is disabled for the default workspace, and a user account
has not been created for you in that workspace, EKM will attempt to sign you in to an-
ANSYS 19.5 Download Archives other workspace in which automatic account creation is enabled, or in which a user
account has been created for you. If no workspace meets one of these criteria, you will
not be able to sign in to EKM. Contact your EKM administrator for assistance.

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Launching EKM

Initially, EKM will open in the current browser window with Home as the current location, as shown
in Figure 2.1: EKM Web Application (Desktop/Laptop) (p. 10). On subsequent sign-ins, the last ac-
cessed object will be displayed by default. If you prefer, you can choose to display a specific page
on every sign-in. See Specifying General Preferences (p. 60) for details.

Note

• If the default Open last accessed object option is selected as your sign-in preference, and
the object last viewed was an error window, the error window will ANSYS 19.5 Download Archives when you sign
in to EKM again. To resolve this issue, click Go one level up in the error window to navigate
to the parent location of the object that was displayed when the error occurred.

• If you have only Basic access, the Data section will be displayed when you sign in, and
the other sections will be unavailable.

When you sign in to EKM for the first time, a welcome dialog box will be displayed, ANSYS 19.5 Download Archives. The dialog box
contains a quick overview of the EKM interface, and links to various resources. You can prevent
the welcome dialog box from appearing in the future by disabling the Show at startup check box
at the bottom of the dialog box, or by editing your preferences. See Setting Your Preferences (p. 60)
for details.

5. Start using EKM. If you are signing into EKM for the first time, you should familiarize yourself with the user
interface components that are described in The EKM Environment (p. 9) before continuing.

If you want to switch to another workspace, see Connecting to a Different Workspace (p, ANSYS 19.5 Download Archives. 33).

EKM will automatically sign you out after an extended period of inactivity. ANSYS 19.5 Download Archives default timeout period
is 30 minutes. Your EKM system administrator can change this setting. See Configuring EKM Server
Settings in the Administration Guide for details.

If you are an EKM system administrator, you can sign into the EKM Server Administration interface from
the sign-in window to create and manage workspaces by clicking the Server Administration check
box. See Creating and Managing Workspaces in the Administration Guide for details.

Important

• By default, if you do not exist as a user in the default workspace, a user account with limited
permissions will be automatically created for you upon successful sign-in. You can then update
your profile with your personal information. See Setting Your User Profile (p. 59) for details. An
ANSYS 19.5 Download Archives admin ANSYS 19.5 Download Archives can also update your profile, and has the ability to edit your group membership. See
2Flyer Screensaver Builder (Standard and Pro) 5.1 crack serial keygen Editing a User’s Profile in the EKM Administration Guide.

ANSYS 19.5 Download Archives When the user account is created, the user name that you specified during sign-in will be
the name used to identify you in EKM, as well as the OS account name used to submit
jobs to RSM.

ANSYS 19.5 Download Archives names and passwords are case-sensitive.

• If automatic account creation has been disabled for the default workspace, and a user account
does not exist for you in this workspace, EKM will attempt to sign you in to another workspace
if available — either one that has a user account defined for you, or one that has automatic account
creation enabled.

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32 of ANSYS, Inc. and its subsidiaries and affiliates.
Launching the EKM Web Client

• You will not be allowed to sign in if the maximum concurrent users are already signed in.

• You will not be able to sign in if the EKM server cannot connect to the license server, or has lost
its connection to it.

• If you are signed in to EKM and the EKM server loses its connection to the license server, the EKM
server will ANSYS 19.5 Download Archives running for a period of 60 minutes. If the connection has not been restored
after 60 minutes, you will be forcibly signed out of EKM.

• If you attempt to launch EKM when the license server is down, or when the EKM server is unable
to connect to it, you will see the following exception: License framework initialization failed.

• If the EKM server is abnormally terminated, the license that is associated with that server will re-
main checked out for some time even if the server is restarted immediately. You can wait for the
timeout period to expire, ANSYS 19.5 Download Archives ask your license administrator to manually release the old server li-
cense.

• If you encounter problems while launching the web client, refer to Appendix U: Troubleshooting
in the EKM Installation VyprVPN 4.2.0 Crack Archives for details.

• What you can see and do in EKM depends on the access level that has been assigned to you. For
more information see Licensing and Access in the EKM Installation Guide.

3.1.1. Connecting to a Different Workspace


An EKM server may have multiple workspaces. Each workspace has its own data repository and settings.

When you sign into EKM for the first time using Miracle FRP Tool 2.00 Crack Without Box Download web browser, you are automatically signed into the
workspace that has been specified as your default workspace by your EKM administrator.

You can switch to a different workspace by selecting the desired workspace from the workspace drop
box in the application title bar, as shown in the figure below.

Figure 3.3: Selecting a Workspace

Only those workspaces that you are permitted to access will be shown in the drop box.

You may not be able to access a workspace if:

• The workspace is being configured.

• An account does not exist for you in that workspace, and the createUsersAutomatically setting is
set to false. For more information about this setting, see createUsersAutomatically Setting in the Admin-
istration Guide.

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Launching EKM

When you select a workspace from the drop box, the contents of the workspace will be displayed in
the current browser tab. You can go back and forth between workspaces by simply selecting the appro-
priate workspace from the workspace drop box.

When you sign out of EKM, the workspace to which you were last connected is retained in the browser’s
cache. The next time you sign in to EKM, Spotify Premium APK 8.5 Crack + Serial Key Latest Version 2020 will be automatically reconnected to that workspace.

When you connect to a different workspace within the EKM web client, your privileges may be different
depending on the access level that has been assigned to you in that workspace. See Licensing and
Access in the EKM Installation Guide for ANSYS 19.5 Download Archives can also have multiple connections open at the same time. For example, you can use the (More)
> Open in new window action on the Data page to open the current view in a new browser tab, and
then switch to a different workspace on that tab. Or, you can open a new browser tab and access a
previous connection that was bookmarked as a favorite. When you access a different workspace on a
new browser tab, workspace connections on other tabs remain open.

Important

If you sign in to a workspace via a web browser, and then switch to a different workspace
on the same browser tab, your connection to the first workspace remains active. EKM will
ANSYS 19.5 Download Archives you as having two open connections until you sign out.

3.1.2. Making Simultaneous Connections


You can sign into EKM from the following EKM client types:

• Web browser

• Workbench

• Mobile

It is possible for you to be signed into EKM from more than one client type at the same time (web
browser, Workbench, or mobile) provided that there is only one open connection on each client. For
example, you can sign into EKM using the Firefox browser, and at the same time sign into EKM from
Workbench.

Important

• You cannot sign in to EKM using the same client type on two different machines. For example,
you cannot sign into EKM from Workbench on one machine, ANSYS 19.5 Download Archives, and then sign into EKM from
Workbench on another machine.

• You cannot sign in to EKM from two different web browsers on the same machine. For example,
if you are currently signed into EKM in the Firefox browser, you cannot sign into EKM using the
ANSYS 19.5 Download Archives Chrome browser because there is already ANSYS 19.5 Download Archives active browser session for EKM. Only one active
session per client type is allowed.

• If there is currently an active EKM browser session, and you attempt to sign into EKM again, ANSYS 19.5 Download Archives, you
will have the option of terminating the current session and opening the new one, or cancelling
the sign-in and keeping the current session open.

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Launching the EKM Web Client

• If you have signed into EKM from Workbench, and attempt to sign into EKM again from Workbench,
a connection error will occur because you already have an open connection through the Work-
bench client. You will need to close the other session before opening a new one.

When you are signed into EKM in a web browser, you can open additional browser tabs and windows
and have multiple sessions running at the same time, without having to check out additional licenses
(unless a higher-level license is required). For example, if you are connected ANSYS 19.5 Download Archives Workspace A in your
web browser, and then open a new browser tab and connect to Workspace B, you will remain signed
into Workspace A on the first tab. The same license that was used to sign into Workspace A is used
for connecting to Workspace B (unless a higher-level license is required for Workspace B). This means
that if you sign out of one workspace, the license will be released, and you will be automatically signed
out of the other workspace as well. See Connecting to a Different Workspace (p. 33) for details.

For specific rules and details regarding licensing in EKM, see Licensing and Access and License Usage
in the EKM Installation Guide.

ANSYS 19.5 Download Archives Important

If you switch from one workspace to another on the same browser tab, you will remain
connected to the first workspace. EKM will see you as having two open connections until
you sign out.

3.1.3. Signing Out of the EKM Web Client


You can sign out of the standard EKM web client by clicking the user profile icon in the top right corner
of the EKM window and selecting Sign Out from the menu.

Important

ANSYS 19.5 Download Archives If you close the EKM web client browser window when using an Internet Explorer, Firefox or
Chrome browser, you will not be signed out and your license will not be released immediately.
Sign-out and license release ANSYS 19.5 Download Archives only occur after the session has timed out, which by default is
after 30 minutes of inactivity. Therefore it is strongly recommended that you only use the Sign
out action to sign out of EKM.

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Launching EKM

• If you are currently connected to more than one workspace via a web browser (see Making Sim-
ultaneous Connections (p. 34)), signing out from one workspace will disconnect you from the
other workspace(s) as well.

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36 ANSYS 19.5 Download Archives of ANSYS, Inc. and its subsidiaries and affiliates.
Chapter 4: Accessing an EKM Server
An EKM server that is running on a networked machine can be accessed by multiple users across a LAN
or WAN. A server is partitioned into workspaces, and you will need to have access to a particular
workspace in order to use it.

There are two ways in which you can access an EKM server:

• From ANSYS Workbench (p. 37)

• From the EKM web client (p. 38)

Topics covered in this chapter:


4.1. Accessing an EKM Server from ANSYS Workbench
4.2. Accessing an EKM Server from the EKM Web Client

When you access EKM, a license is checked out that determines what privileges you have. See Licensing
and Access (p. ?) in the Installation Guide for details.

4.1. Accessing an EKM Server from ANSYS Workbench


You ANSYS 19.5 Download Archives access an EKM repository from the File menu in ANSYS Workbench using the following actions:

Save to Repository: You can save your ANSYS Workbench project to an EKM repository for archive
storage. Once the project has been saved to the repository, you can perform additional EKM-based
operations on it through the EKM web client. See Saving a Project to an EKM Repository in the Workbench
User's Guide for details.

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of ANSYS, Inc. and its subsidiaries and affiliates. 37
Accessing an EKM Server

Open from Repository: You can open a project from an EKM repository to load an archived project,
or access a project a different user has placed on a shared repository. See Opening a Project from an
EKM Repository in the Workbench User's Guide for details.

Send Changes to Repository: When working with a project that has been saved to or opened from
an EKM repository, ANSYS Workbench enables you to update the repository with the current project
version. See Sending Project Changes to the EKM Repository in the ANSYS 19.5 Download Archives User's Guide for details.

Get Changes from Repository: When you open an Eleventa punto de venta crack serial keygen Workbench project that has been previously
opened from or saved to an ANSYS 19.5 Download Archives repository, ANSYS Workbench will check if a more recent copy of the
project exists in the repository. If a more recent copy exists, you will be prompted and given the option
to update your local copy with the version of the project in the repository. See Getting Project Changes
from the EKM Repository in the Workbench User's Guide for details.

Transfer to Repository Status: This option enables you to check the status of a file transfer via a cache
server. See Using a Cache Server for EKM File Transfers in the Workbench User's Guide for details.

Manage Repository Project Enables you to view and control access to the project. See Managing EKM
Repository Project Changes in the Workbench User's Guide for details.

Launch EKM Web Client Launches the EKM web client. If you have more than one connection defined,
you will first be prompted to select the connection you want to open. Once the EKM web client is
launched, you will have access to the full features of the EKM server. See Accessing an EKM Server from
the EKM Web Client (p. 38) for more details on launching the web client from Workbench.

When you invoke Save or Open actions from ANSYS Workbench, you will be presented with the Create
New Connection to EKM Repository wizard if it is the first time you are trying to connect to the web
client from Workbench. Once a connection is created, the server will automatically start if is not already
running and you will be connected to it using your user credentials. If you elect to save your credentials,
then the next time you save or open projects in Workbench, you will be automatically connected and
the action will be invoked without additional user interaction.

4.2. Accessing an EKM Server from the EKM Web Client


You can access an EKM server from the EKM web client. You can launch the EKM web client:

• From a web browser

• From ANSYS Workbench

To launch the web client from a web browser, see Launching the EKM Web Client (p. 29).

To launch the web client from ANSYS Workbench, select File > Launch EKM Web Client.

• If you have already created a connection to the repository and it is the only connection, then the EKM
server will automatically start (if it is not running) and will bring up the EKM login window.

• If more than one ANSYS 19.5 Download Archives exists then the Launch EKM Web Client dialog box will open. When you
select the connection to open, the EKM login window will open.

• If no connection exists, then you will be prompted to create a new repository connection ANSYS 19.5 Download Archives the
Open from Repository command in Workbench. Once you have created a new connection to your
repository, the EKM server will start. You can then cancel the Open from Repository dialog box and
select File 4U MP4 Video Converter 1.8.2 crack serial keygen Launch EKM Web Client in Workbench to open the EKM login window.

Power Poin to DVD v 1.3.5.2 crack serial keygen Release 17.0 - © ANSYS, Inc, ANSYS 19.5 Download Archives. All rights reserved. - Contains ANSYS 19.5 Download Archives and confidential information

Источник: [https://torrent-igruha.org/3551-portal.html]

Fluent 14.5 Tutorial

Citation preview

ANSYS FLUENT Tutorial Guide

ANSYS, Inc. Southpointe 275 Technology Drive Canonsburg, PA 15317 [email protected] http://www.ansys.com (T) 724-746-3304 CleanMyDrive 2.1.13 registration key Archives 724-514-9494

Release 14.0 November 2011 ANSYS, Inc. is certified to ISO 9001:2008.

Copyright and Trademark Information © 2011 SAS IP, Inc. All rights reserved. Unauthorized use, distribution or duplication is prohibited. ANSYS, ANSYS Workbench, Ansoft, AUTODYN, EKM, Engineering Knowledge Manager, CFX, FLUENT, HFSS and any and all ANSYS 19.5 Download Archives, Inc. brand, product, service and feature names, logos and slogans are registered trademarks or trademarks of ANSYS, Inc. or its subsidiaries in the United States or other countries. ICEM CFD is a trademark used by ANSYS, Inc. under license. CFX is a trademark of Sony Corporation in Japan. All other brand, product, service and feature names or trademarks are the property of their respective owners.

Disclaimer Notice THIS ANSYS SOFTWARE PRODUCT AND PROGRAM DOCUMENTATION INCLUDE TRADE SECRETS AND ARE CONFIDENTIAL AND PROPRIETARY PRODUCTS OF ANSYS, INC., ITS SUBSIDIARIES, OR LICENSORS. The software products and documentation are furnished by ANSYS, Inc., its subsidiaries, or affiliates under a software ANSYS 19.5 Download Archives agreement that contains provisions concerning non-disclosure, copying, length and nature of ANSYS 19.5 Download Archives, compliance with exporting laws, warranties, disclaimers, limitations of liability, and remedies, and other provisions. The software products and documentation may be used, disclosed, ANSYS 19.5 Download Archives, transferred, or copied only in accordance with the terms and conditions of that software license agreement. ANSYS, Inc. is certified to ISO 9001:2008.

U.S. Government Rights For U.S. Government users, except as specifically granted by the ANSYS, Inc. software license agreement, the use, duplication, or disclosure by the United States Government is subject to restrictions stated in the ANSYS, Inc. software license agreement and FAR 12.212 (for non-DOD licenses).

Third-Party Software See the legal information in the product help files for the complete Legal Notice for ANSYS proprietary software and third-party software. If you are unable to access the Legal Notice, please contact ANSYS, Inc. Published in the U.S.A.

Table of Contents Using This Manual . xiii 1. What’s In This Manual . xiii 2. The Contents of the FLUENT Manuals . xiii 3. Where to Find the Files Used in the Tutorials . xiv 4. How To Use This Manual . xiv 4.1. For the Beginner . xv 4.2. For the Experienced User . xv 5. Typographical Conventions Used In This Manual . xv 1. Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow . 1 1.1. Introduction . 1 1.2. Prerequisites . 1 1.3. Problem Description . 2 1.4. Setup and Solution . 2 1.4.1. Preparation . 3 1.4.2. Step 1: Creating a FLUENT Fluid Flow Analysis System in ANSYS Workbench . 4 1.4.3. Step 2: Creating the Geometry in ANSYS DesignModeler . 8 1.4.4. Step 3: Meshing the Geometry in the ANSYS Meshing Application . 19 1.4.5. Step 4: Setting Up the CFD Simulation in ANSYS FLUENT . 26 1.4.6. Step 5: Displaying Results in ANSYS FLUENT and CFD-Post . 50 1.4.7. Step 6: Duplicating the FLUENT-Based Fluid Flow Analysis System . 60 1.4.8. Step 7: Changing the Geometry in ANSYS DesignModeler . 61 1.4.9. Step 8: Updating the Mesh in the ANSYS Meshing Application . 64 1.4.10. Step 9: Calculating a New Solution in ANSYS FLUENT . 67 1.4.11. Step 10: Comparing the Results of Both Systems in CFD-Post . 69 1.4.12. Step 11: Summary . 74 2. ANSYS 19.5 Download Archives Analysis in ANSYS Workbench Using ANSYS FLUENT . 77 2.1. Introduction . 77 2.2. Prerequisites . 78 2.3. Problem Description . 78 2.4. Setup and Solution . 82 2.4.1. Preparation . 83 2.4.2. Step 1: Adding Constraints to ANSYS DesignModeler Parameters in ANSYS Workbench . 83 2.4.3. Step 2: Setting Up the CFD Simulation in ANSYS FLUENT . 92 2.4.4. Step 3: Defining Input and Output Parameters in ANSYS FLUENT and Running the Simulation . 96 2.4.5. Step 4: Postprocessing in ANSYS ANSYS 19.5 Download Archives . 108 2.4.6. Step 5: Creating Additional Design Points in ANSYS Workbench . 122 2.4.7. Step 6: Postprocessing the New Design Points in CFD-Post . 124 2.4.8. Step 7: Summary . 130 3. Introduction to Using ANSYS FLUENT: Fluid Flow and Heat Transfer in a Mixing Elbow . 131 3.1. Introduction . 131 3.2. Prerequisites . 131 3.3. Problem Description . 131 3.4. Setup and Solution . 132 3.4.1. Preparation . 133 3.4.2. Step 1: Launching ANSYS FLUENT . 133 3.4.3. Step 2: Mesh . 136 3.4.4. Step 3: General Settings . 140 3.4.5. Step 4: Models . 143 Release 14.0 - © SAS IP, Inc. All rights reserved. - Contains proprietary and confidential information of ANSYS, Inc. and its subsidiaries and affiliates.

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ANSYS FLUENT Tutorial Guide 3.4.6. Step 5: Materials . 145 3.4.7. Step 6: Cell Zone Conditions . 147 3.4.8. Step 7: Boundary Conditions . 149 3.4.9. Step 8: Solution . 154 3.4.10. Step 9: Displaying the Preliminary Solution . 163 3.4.11. Step 10: Using the Coupled Solver . 177 3.4.12. Step 11: Adapting the Mesh . 180 3.5. Summary . 195 4. Modeling Periodic Flow and Heat Transfer . 197 4.1. Introduction . 197 4.2. Prerequisites . 197 4.3. Problem Description . 198 4.4. Setup and Solution . 198 4.4.1. Preparation . 199 4.4.2. Step 1: Mesh . 199 4.4.3. Step 2: General Settings . 202 4.4.4. Step 3: Models . 202 4.4.5. Step 4: Materials ., ANSYS 19.5 Download Archives. 203 4.4.6. Step 5: Cell Zone Conditions . 205 4.4.7. Step 6: Periodic Conditions . 206 4.4.8. Step 7: Boundary Conditions . 207 4.4.9. Step 8: Solution . 208 4.4.10. Step 9: Postprocessing . 212 4.5. Summary . 222 ANSYS 19.5 Download Archives. Further Improvements . 223 5. Modeling External Compressible Flow . 225 5.1. Introduction . 225 5.2. Prerequisites . 225 5.3. Problem Description . 225 5.4. Setup and Solution . 226 5.4.1. Preparation . 226 5.4.2. Step 1: Mesh . 227 5.4.3. Step 2: General Settings . 230 5.4.4. Step 3: Models . 230 5.4.5. Step 4: Materials . 231 5.4.6. Step 5: Boundary Conditions . 233 5.4.7. Step 6: Operating Conditions . 235 5.4.8. Step 7: Solution ., ANSYS 19.5 Download Archives. 236 5.4.9. Step 8: Postprocessing . 253 5.5. Summary . 259 5.6. Further Improvements . 259 6. Modeling Transient Compressible Flow . 261 6.1. Introduction . 261 6.2. Prerequisites . 261 6.3. Problem Description . 261 6.4. Setup and Solution . 262 6.4.1. Preparation . 262 6.4.2, ANSYS 19.5 Download Archives. Step 1: Mesh . 263 6.4.3. Step 2: General Settings . 265 6.4.4. Step 3: Models . 267 6.4.5. Step 4: Materials . 268 6.4.6. Step 5: Operating Conditions . 269

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ANSYS FLUENT Tutorial Guide 6.4.7. Step 6: Boundary Conditions ., ANSYS 19.5 Download Archives. 270 6.4.8. Step 7: Solution: Steady Flow . 272 6.4.9. Step 8: Enable Time Dependence and Set Transient Conditions . 283 6.4.10. Step 9: Solution: Transient Flow . 286 6.4.11. Step 10: Saving and Postprocessing Time-Dependent Data Sets ., ANSYS 19.5 Download Archives. 289 6.5. Summary . 304 6.6. Further Improvements . 305 7. Modeling Radiation and Natural Convection . 307 7.1. Introduction . 307 7.2. Prerequisites . 307 7.3. Problem Description . 307 7.4. Setup and Solution . 308 7.4.1. Preparation ., ANSYS 19.5 Download Archives. 308 7.4.2. Step 1: Mesh . 309 7.4.3. Step 2: General Settings . 309 ANSYS 19.5 Download Archives. Step 3: Models . 311 7.4.5, ANSYS 19.5 Download Archives. Step 4: Materials . 314 7.4.6. Step 5: Boundary Conditions . 316 7.4.7. Step 6: Solution . 321 7.4.8, ANSYS 19.5 Download Archives. Step 7: Postprocessing . 327 7.4.9. Step 8: Compare the Contour Plots after Varying Radiating Surfaces . 341 7.4.10. Step 9: S2S Definition, Solution and Postprocessing with Partial Enclosure . 353 7.5. Summary . 357 7.6. Further Improvements ., ANSYS 19.5 Download Archives. 357 8. Using the Discrete Ordinates Radiation Model . 359 8.1. Introduction . 359 8.2. Prerequisites . 359 8.3, ANSYS 19.5 Download Archives. Problem Description . 359 8.4. Setup and Solution . 360 8.4.1. Preparation . 361 8.4.2. Step 1: Mesh . 361 8.4.3. Step 2: General Settings . 361 8.4.4. Step 3: Models . 365 8.4.5. Step 4: Materials . 366 8.4.6. Step 5: Cell Zone Conditions . 368 8.4.7. Step 6: Boundary Conditions . 370 ANSYS 19.5 Download Archives. Step 7: Solution . 378 8.4.9. Step 8: Postprocessing . 382 8.4.10. Step 9: Iterate for Higher Pixels . 389 8.4.11. Step 10: Iterate for Higher Divisions . 393 8.4.12. Step 11: Make the Reflector Completely Diffuse . 401 8.4.13. Step 12: Change the Boundary Type of Baffle . 403 8.5. Summary . 405 8.6. Further Improvements . 405 9. Using a Non-Conformal Mesh . 407 9.1. Introduction . 407 9.2. Prerequisites . 407 9.3. Problem Description . 408 9.4. Setup and Solution . 409 9.4.1, ANSYS 19.5 Download Archives. Preparation . 409 9.4.2. Step 1: Mesh . 409 9.4.3. Step 2: General Settings . 414 Release 14.0 - © SAS IP, Inc. All rights reserved. - Contains proprietary and confidential information of ANSYS, Inc. and its subsidiaries and affiliates.

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ANSYS FLUENT Tutorial Guide 9.4.4. Step 3: Models . 414 9.4.5. Step 4: Materials . 416 9.4.6. Step 5: Operating Conditions . 416 9.4.7. Step 6: Cell Zone Conditions . 417 9.4.8. Step 7: Boundary Conditions . 418 9.4.9. Step 8: Mesh Interfaces . 428 9.4.10. Step 9: Solution ., ANSYS 19.5 Download Archives. 430 9.4.11. Step 10: Postprocessing . 432 9.5. Summary . 444 9.6. Further Improvements . 445 10. Modeling Flow Through Porous Media . 447 10.1. Introduction . 447 10.2. Prerequisites . 447 10.3. Problem Description . 448 10.4. Setup and Solution . 448 10.4.1. Preparation . 449 10.4.2. Step 1: Mesh . 449 10.4.3, ANSYS 19.5 Download Archives. Step 2: General Settings . 451 10.4.4. Step 3: Models . 452 10.4.5. Step 4: Materials . 453 10.4.6, ANSYS 19.5 Download Archives. Step 5: Cell Zone Conditions . 455 10.4.7. Step 6: Boundary Conditions . 459 10.4.8. Step 7: Solution . 462 10.4.9, ANSYS 19.5 Download Archives. Step 8: Postprocessing . 468 10.5. Summary . 482 10.6. Further Improvements . 482 11. Using a Single Rotating Reference Frame . 483 11.1. Introduction . 483 11.2. Prerequisites . 483 11.3. Problem Description . 483 11.4. Setup and Solution . 485 11.4.1. Preparation . 485 11.4.2. Step 1: Mesh ., ANSYS 19.5 Download Archives. 485 11.4.3. Step 2: General Settings . 485 11.4.4. Step 3: Models . 489 11.4.5. Step 4: Materials . 490 11.4.6. Step 5: Cell Zone Conditions . 490 11.4.7. Step 6: Boundary Conditions . 492 11.4.8. Step 7: Solution Using the Standard k- ε Model . 496 11.4.9. Step 8: Postprocessing for the Standard k- ε Solution . 504 11.4.10. Step 9: Solution Using the RNG k- ε Model . 513 11.4.11. Step 10: Postprocessing for the RNG k- ε Solution . 515 11.5. Summary . 520 11.6. Further Improvements . 520 11.7. References . 521 12. Using Multiple Reference Frames . 523 12.1. Introduction . 523 12.2. Prerequisites . 524 12.3. Problem Description . 524 12.4. Setup and Solution . 524 12.4.1. Preparation . 525 12.4.2. Step 1: Mesh . 525

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ANSYS FLUENT Tutorial Guide 12.4.3. Step 2: General Settings . 525 12.4.4. Step 3: Models . 527 12.4.5. Step 4: Materials . 528 12.4.6. Step 5: Cell Zone Conditions . 529 12.4.7. Step 6: Boundary Conditions . 532 12.4.8. Step 7: Mesh Interfaces . 535 12.4.9. Step 8: Solution . 536 12.4.10. Step 9: Postprocessing . 541 12.5. Summary . 546 12.6. Further Improvements . 546 13. Using the Mixing Plane Model ., ANSYS 19.5 Download Archives. 549 13.1. Introduction . 549 13.2. Prerequisites . 549 13.3. Problem Description . 549 13.4. Setup and Solution . 550 13.4.1. Preparation . 550 13.4.2. Step 1: Mesh . 551 13.4.3. Step 2: General Settings . 551 13.4.4. Step 3: Models . 554 13.4.5. Step 4: Mixing Plane . 555 13.4.6. Step 5: Materials . 557 13.4.7. ANSYS 19.5 Download Archives 6: Cell Zone Conditions . 558 13.4.8. Step 7: Boundary Conditions . 561 13.4.9. Step 8: Solution . 570 13.4.10. Step 9: Postprocessing . 578 13.5. Summary . 587 13.6. Further Improvements . 587 14. Using Sliding Meshes . 589 14.1. Introduction . 589 14.2. Prerequisites . 589 14.3. Problem Description . 589 14.4. Setup and Solution . 590 14.4.1. Preparation . 590 14.4.2. Step 1: Mesh . 591 14.4.3. Step 2: General Settings . 591 14.4.4. Step 3: Models . 595 14.4.5. Step 4: Materials . 595 14.4.6. Step 5: Cell Zone Conditions . 596 14.4.7. Step 6: Boundary Conditions . 599 14.4.8. Step 7: Operating Conditions . 603 14.4.9. Step 8: Mesh Interfaces . 603 14.4.10. Step 9: Solution . 604 14.4.11. Step 10: Postprocessing . 619 14.5. Summary . 625 14.6. Further Improvements . 626 15. Using Dynamic Meshes . 627 15.1. Introduction . 627 15.2. Prerequisites . 627 15.3. Problem Description . 628 15.4, ANSYS 19.5 Download Archives. Setup and Solution . 628 15.4.1. Preparation . 628 15.4.2. Step 1: Mesh . 629 Release 14.0 - © SAS IP, ANSYS 19.5 Download Archives, Inc. All rights reserved. - Contains proprietary and confidential information of ANSYS, Inc. and its subsidiaries and affiliates.

vii

ANSYS FLUENT Tutorial Guide 15.4.3. Step 2: General Settings . 629 15.4.4. Step 3: Models . 632 15.4.5, ANSYS 19.5 Download Archives. Step 4: Materials . 633 15.4.6. Step 5: Boundary Conditions . 635 15.4.7. Step 6: Solution: Steady Flow . 639 15.4.8. Step 7: Time-Dependent Solution Setup ., ANSYS 19.5 Download Archives. 644 15.4.9. Step 8: Mesh Motion . 645 15.4.10. Step 9: Time-Dependent Solution . 651 15.4.11. Step 10: Postprocessing . 661 15.5. Summary . 665 15.6. Further Improvements . 665 16. Modeling Species Transport and Gaseous Combustion . 667 16.1. Introduction ., ANSYS 19.5 Download Archives. 667 16.2. Prerequisites . 667 16.3. Problem Description . 668 16.4. Background . 668 16.5. Setup and Solution . 668 16.5.1. Preparation . 669 16.5.2. Step 1: Mesh . 669 16.5.3. Step 2: General Settings . 669 16.5.4. Step 3: Models . 672 16.5.5. Step 4: Materials . 675 16.5.6. Step 5: Boundary Conditions . 678 16.5.7. Step 6: Initial Reaction Solution . 685 16.5.8. Step 8: Postprocessing . 691 16.5.9. Step 9: NOx Prediction . 701 16.6. Summary . 715 16.7. Further Improvements . 716 17. Using the Non-Premixed Combustion Model . 717 17.1. Introduction . 717 17.2. Prerequisites . 717 17.3. Problem Description . 718 17.4. Setup and Solution ., ANSYS 19.5 Download Archives. 719 17.4.1. Preparation . 719 17.4.2. Step 1: Mesh . 720 17.4.3. Step 2: General Settings . 720 17.4.4, ANSYS 19.5 Download Archives. Step 3: Models . 725 17.4.5. Step 4: Materials ., ANSYS 19.5 Download Archives. 732 17.4.6. Step 5: Boundary Conditions . 733 17.4.7. Step 6: Operating Conditions . 740 17.4.8. Step 7: Solution . 741 17.4.9. Step 8: Postprocessing . 745 17.4.10. ANSYS 19.5 Download Archives 9: Energy Balances Reporting . 748 17.5. Summary . 750 17.6. References . 750 17.7. Further Improvements . 751 18. Modeling Surface Chemistry . 753 18.1. Introduction ., ANSYS 19.5 Download Archives. 753 18.2. Prerequisites . 753 18.3. Problem Description . 754 18.4. Setup and Solution . 755 18.4.1. Preparation . 755

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ANSYS FLUENT Tutorial Guide 18.4.2. Step 1: Mesh . 756 18.4.3. Step 2: General Settings . 756 18.4.4. Step 3: Models . 758 18.4.5. Step 4: Materials . 760 18.4.6. Step 5: Boundary Conditions . 769 18.4.7. Step 6: Operating Conditions . 775 18.4.8. Step 7: Non-Reacting Flow Solution . 775 18.4.9. Step 8: Reacting Flow Solution . 778 18.4.10. Step 9: Postprocessing . 784 18.5. Summary . 791 18.6. Further Improvements . 792 19. Modeling Evaporating Liquid Spray . 793 19.1. Introduction . 793 19.2. Prerequisites . 793 19.3. Problem Description . 793 19.4. Setup and Solution ., ANSYS 19.5 Download Archives. 794 19.4.1. Preparation . 794 19.4.2. Step 1: Mesh . 795 19.4.3. Step 2: General Settings . 795 19.4.4. Step 3: Models . 798 19.4.5. Step 4: Materials . 800 ANSYS 19.5 Download Archives. Step 5: Boundary Conditions . 803 19.4.7, ANSYS 19.5 Download Archives. Step 6: Initial Solution Without Droplets . 808 19.4.8. Step 7: Create a Spray Injection . 818 19.4.9. Step 8: Solution . 824 19.4.10. Step 9: Postprocessing ANSYS 19.5 Download Archives. 833 19.5. Summary . 837 19.6. Further Improvements . 837 ANSYS 19.5 Download Archives. Using the VOF Model . 839 20.1. Introduction . 839 20.2. Prerequisites . 839 20.3. Problem Description ., ANSYS 19.5 Download Archives. 839 20.4. Setup and Solution . 841 20.4.1. Preparation . 841 20.4.2. Step 1: Mesh . 842 20.4.3. Step 2: General Settings . 847 20.4.4. Step 3: Models . 850 20.4.5. Step 4: Materials . 850 20.4.6. Step 5: Phases . 852 20.4.7. Step 6: Operating Conditions . 855 20.4.8. Step 7: User-Defined Function (UDF) . ANSYS 19.5 Download Archives 20.4.9. Step 8: Boundary Conditions . 856 20.4.10. Step 9: Solution . 860 20.4.11. Step 10: Postprocessing . 867 20.5. Summary . 872 20.6. Further Improvements ., ANSYS 19.5 Download Archives. 872 21. Modeling Cavitation . 875 21.1. Introduction . 875 21.2. Prerequisites . 875 21.3. Problem Description . 875 21.4. Setup and Solution . 876 21.4.1. Preparation . 876 Release 14.0 - © SAS IP, Inc. All rights reserved. - Contains proprietary and confidential information of ANSYS, Inc. and its subsidiaries and affiliates.

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ANSYS FLUENT Tutorial Guide 21.4.2. Step 1: Mesh . 877 21.4.3. Step 2: General Settings . 877 21.4.4. Step 3: Models . 879 21.4.5. Step 4: Materials . 881 21.4.6. Step 5: Phases . 884 21.4.7. Step 6: Boundary Conditions . 887 21.4.8. Step 7: Operating Conditions . 892 21.4.9, ANSYS 19.5 Download Archives. Step 8: Solution . 892 21.4.10. Step 9: Postprocessing . 897 21.5. Summary . 903 21.6. Further Improvements . 904 22. Using the Mixture and Eulerian Multiphase Models . 905 22.1. Introduction . 905 22.2. Prerequisites . 905 22.3. Problem Description . 905 22.4, ANSYS 19.5 Download Archives. Setup and Solution . 906 22.4.1, ANSYS 19.5 Download Archives. Preparation . 906 22.4.2. Step 1: Mesh . 907 22.4.3. Step 2: General Settings . 907 22.4.4. ANSYS 19.5 Download Archives 3: Models . 909 22.4.5. Step 4: Materials . 911 22.4.6. Step 5: Phases . 912 22.4.7. Step 6: Boundary Conditions . 914 22.4.8. Step 7: Operating Conditions . 918 22.4.9. Step 8: Solution Using the Mixture Model . 919 22.4.10. Step 9: Postprocessing for the Mixture Solution . 923 22.4.11. Step 10: Setup and Solution for the Eulerian Model . 927 22.4.12. Step 11: Postprocessing for the Eulerian Model . 932 22.5. Summary . 936 22.6. Further Improvements . 936 23. Using the Eulerian Multiphase Model for Granular Flow . 939 23.1. Introduction . 939 23.2. Prerequisites . 939 23.3. Problem Description sandboxie full crack Archives. 939 23.4. Setup and Solution . 940 23.4.1. Preparation . 940 23.4.2. Step 1: Mesh . 941 23.4.3. Step 2: General Settings . 941 23.4.4. Step 3: ANSYS 19.5 Download Archives . 948 23.4.5. Step 4: Materials . 950 23.4.6. Step 5: Phases . 952 23.4.7. Step 6: User-Defined Function (UDF) . 955 23.4.8. Step 7: Cell Zone Conditions . 956 23.4.9. Step 8: Solution . 959 23.4.10. Step 9: Postprocessing . 973 23.5. Summary . 977 23.6. Further Improvements . 977 24. Modeling Solidification . 979 24.1. Introduction ANSYS 19.5 Download Archives. 979 24.2. Prerequisites . 979 24.3. Problem Description . 979 24.4. Setup and Solution . 980

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ANSYS FLUENT Tutorial Guide 24.4.1. Preparation . 981 24.4.2. Step 1: Mesh . 981 24.4.3. Step 2: General Settings . 981 24.4.4. Step 3: Models . 984 24.4.5. Step 4: Materials . 985 24.4.6. Step 5: Cell Zone Conditions . 988 24.4.7. Step 6: Boundary Conditions . 989 24.4.8. Step 7: Solution: Steady Conduction . 998 24.4.9. Step 8: Solution: Transient Flow and Heat Transfer . 1009 24.5. Summary . 1021 24.6. Further Improvements . 1021 25. Using the Eulerian Granular Multiphase Model with Heat Transfer . 1023 25.1. Introduction . 1023 25.2. Prerequisites . 1023 25.3. Problem Description . 1023 25.4. Setup and Solution . 1024 25.4.1. Preparation . 1024 25.4.2. Step 1: Mesh . 1025 25.4.3. Step 2: General Settings . 1025 25.4.4. Step 3: Models . 1028 25.4.5. Step 4: UDF . 1030 25.4.6. Step 5: Materials . 1031 25.4.7, ANSYS 19.5 Download Archives. Step Microsoft Office 365 Product Key 2021 + Activator [Cracked] Phases . 1032 25.4.8. Step 7: Boundary Conditions . 1036 25.4.9. Step 8: Solution . 1042 25.4.10. Step 9: Postprocessing . 1054 25.5. Summary . 1057 25.6. Further Improvements . 1057 25.7. References . 1058 26. Postprocessing ., ANSYS 19.5 Download Archives. 1059 26.1. Introduction . 1059 26.2. Prerequisites . 1059 26.3, ANSYS 19.5 Download Archives. Problem Description . 1060 26.4. Setup and Solution ., ANSYS 19.5 Download Archives. 1060 26.4.1. Preparation . 1061 26.4.2. Step 1: Mesh . 1061 26.4.3. Step 2: General Settings . 1061 26.4.4. Step 3: Adding Lights . 1064 26.4.5. Step 4: Creating Isosurfaces . 1068 26.4.6. Step 5: Contours . 1071 26.4.7. Step 6: Velocity Vectors . 1077 26.4.8. Step 7: Animation . 1083 26.4.9. Step 8: Pathlines . 1088 26.4.10. Step 9: Overlaying Velocity Vectors on the Pathline Display . 1094 26.4.11. Step 10: Exploded Views . 1097 26.4.12. Step 11: Animating the Display of Results in Successive Streamwise Planes . 1102 26.4.13. Step 12: XY Plots . 1104 26.4.14. Step 13: Annotation . 1107 26.4.15. Step 14: Saving Hardcopy Files . 1109 26.4.16. Step 15: Volume Integral Reports . 1110 26.5. Summary . 1110 27. Parallel Processing . 1113 Release 14.0 - © SAS IP, Inc. All rights reserved. - ANSYS 19.5 Download Archives proprietary and confidential information of ANSYS, Inc. and its subsidiaries and affiliates.

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ANSYS FLUENT Tutorial Guide 27.1. Introduction . 1113 27.2. Prerequisites . 1113 27.3. Problem Description . 1114 27.4. Setup and Solution . 1114 27.4.1. Preparation . 1115 27.4.2. Step 1: Starting the Parallel Version of ANSYS FLUENT . 1115 27.4.3. Step 1A: Multiprocessor Machine . 1115 27.4.4. Step 1B: Network of Computers . 1116 27.4.5. Step 2: Reading and Partitioning the Mesh . 1119 27.4.6. Step 3: Solution . 1126 27.4.7. Step 4: Checking Parallel Performance . 1126 27.4.8. Step 5: Postprocessing . 1127 27.5. Summary . 1130

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Using This Manual This preface is ANSYS 19.5 Download Archives into the following sections: 1. What’s In This Manual 2.The Contents of the FLUENT Manuals 3. Where to Find the Files Used in the Tutorials 4. How To Use This Manual 5.Typographical Conventions Used In This Manual

1. What’s In This Manual The ANSYS FLUENT Tutorial Guide contains a number of tutorials that teach you how to use ANSYS FLUENT to solve BullGuard Antivirus 2020 20.0.375.1 Crack + Key Free Download types of problems. In each tutorial, features related to problem setup and postprocessing are demonstrated. The tutorials are written with the assumption that you have completed one or more of the introductory tutorials found in this manual: •

Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow (p. 1)



Parametric Analysis in ANSYS Workbench Using ANSYS FLUENT (p. 77)



Introduction to Using ANSYS FLUENT: Fluid Flow and Heat Transfer in a Mixing Elbow (p. 131)

and that you are familiar with the ANSYS FLUENT navigation pane and menu structure. Some steps in the setup and solution procedure will not be shown explicitly. Introduction to Using ANSYS FLUENT: Fluid Flow and Heat Transfer in a Mixing Elbow (p. 131) All of the tutorials include some postprocessing instructions, but Postprocessing (p. 1059) is devoted entirely to postprocessing.

2. The Contents of the FLUENT Manuals The manuals listed below form the FLUENT product documentation set. They include descriptions of the procedures, commands, and theoretical details needed to use FLUENT products. FLUENT Getting Started Guide contains general information about getting started with using FLUENT. FLUENT User's Guide contains detailed information about using FLUENT, including information about the user interface, reading and writing files, defining boundary conditions, setting up physical models, calculating a solution, and analyzing your results. FLUENT in Workbench User's Guide contains information about getting started with and using FLUENT within the Workbench environment. FLUENT Theory Guide contains reference information for how the physical models are implemented in FLUENT. FLUENT UDF Manual contains information about writing and using user-defined functions (UDFs). FLUENT Tutorial Guide contains a number of example problems with detailed instructions, commentary, and postprocessing of results. FLUENT Text Command List contains a brief description of each of the commands in FLUENT’s text interface.

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Using This Manual FLUENT Adjoint Solver Module Manual contains information about the background and usage of FLUENT's Adjoint Solver Module that allows you to obtain detailed sensitivity data for the performance of a fluid system. FLUENT Battery Module Manual contains information about the background and usage of FLUENT's Battery Module that allows you to analyze the behavior of electric batteries. FLUENT ANSYS 19.5 Download Archives Fiber Module Manual contains information about the background ANSYS 19.5 Download Archives usage of FLUENT's Continuous Fiber Module that allows you to analyze the behavior of fiber flow, fiber properties, and coupling between fibers and the surrounding fluid due to the strong interaction that exists between the fibers and the surrounding gas. FLUENT Fuel Cell Modules Manual contains information about the background and the usage of two separate add-on fuel cell models for FLUENT that allow you to model polymer electrolyte membrane fuel cells (PEMFC), solid oxide fuel cells (SOFC), and electrolysis with FLUENT. FLUENT Magnetohydrodynamics (MHD) Module Manual contains information about the background and usage of FLUENT's Magnetohydrodynamics (MHD) Module that allows you to analyze the behavior ANSYS 19.5 Download Archives electrically conducting fluid flow under the influence of constant (DC) or oscillating (AC) electromagnetic fields. FLUENT Migration Manual contains information about transitioning from the previous release of FLUENT, ANSYS 19.5 Download Archives details about new features, solution changes, and text command list changes. FLUENT Population Balance Module Manual contains information about the background and usage of FLUENT's Population Balance Module that allows you to analyze multiphase flows involving size distributions where particle population (as well as momentum, mass, and energy) require a balance equation. Running FLUENT Under LSF contains information about the using FLUENT with Platform Computing’s LSF software, a distributed computing resource management tool. Running FLUENT Under PBS Professional contains information about the using FLUENT with Altair PBS Professional, an open workload management tool for local and distributed environments. Running FLUENT Under SGE contains ANSYS 19.5 Download Archives about the using FLUENT with Sun Grid Engine (SGE) software, a distributed computing resource management tool.

3. Where to Find the Files Used in the Tutorials Each of the tutorials uses an existing mesh file. (Tutorials for mesh generation are provided with the mesh generator documentation.) You will find the appropriate mesh file (and any other relevant files used in the tutorial) on the ANSYS Customer Portal. The “Preparation” step of each tutorial will tell you where to find the necessary files. (Note that Tutorials Postprocessing (p. 1059) and Parallel Processing (p. 1113) use existing case and data files.) Some of the more complex tutorials may require a significant amount of computational time. If you want to look at the results immediately, without waiting for the calculation to finish, final solution files are provided in a solution_files folder which you can access after extracting the tutorial input archive.

4. How To Use This Manual Depending on your familiarity with computational fluid dynamics and the ANSYS FLUENT software, you can use this tutorial guide in a variety of ways.

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Typographical Conventions Used In This Manual

4.1. For the Beginner If you are a beginning user of ANSYS FLUENT you should first read and solve Tutorial 1, in order to familiarize yourself with the interface and with basic setup and solution procedures. You may then want to try a tutorial that demonstrates features that you are going to use in your application. For example, if you are planning to solve a problem using the non-premixed combustion model, you should look at Using the Non-Premixed Combustion Model (p. 717). You may want to refer to other tutorials for instructions on using specific features, such as custom field functions, mesh scaling, and so on, even if the problem solved in the tutorial is not of particular interest to you. To learn about postprocessing, you can look at Postprocessing (p, ANSYS 19.5 Download Archives. 1059), which is devoted entirely to postprocessing (although the other tutorials all contain some postprocessing as well).

4.2. For the Experienced User If you are an experienced ANSYS FLUENT user, you can read and/or solve the tutorial(s) that demonstrate features that you are going to use in your application. For example, if you are planning to solve a problem using the non-premixed combustion model, you should look at Using the Non-Premixed Combustion Model (p. 717). You may want to refer to other tutorials for instructions on using specific features, such as custom field functions, mesh scaling, and so on, even if the problem solved in the tutorial is not of particular interest to you. To learn about postprocessing, you can look at Postprocessing (p. 1059), City car driving 1.2.2 crack serial keygen is devoted entirely to postprocessing (although the other tutorials all contain some postprocessing as well).

5. Typographical Conventions Used In This Manual Several typographical conventions are used in the text of the tutorials to facilitate your learning process, ANSYS 19.5 Download Archives. •

Different type styles are used to indicate graphical user interface menu items and text interface menu items (e.g., Zone Surface dialog box, surface/zone-surface command).



The text interface type style is also used when illustrating exactly what appears on the screen or exactly what you must type in the text window or in a dialog box.



Instructions for performing each step in a tutorial will appear in standard type. Additional information about a step in a tutorial appears in italicized type.



A mini flow chart is used to guide you through the navigation pane, which leads you to a specific task page or dialog box. For example, Models →

Multiphase → Edit.

indicates that Models is selected in the navigation pane, which then opens the corresponding task page. In the Models task page, Multiphase is selected from the list. Clicking the Edit. button opens the Multiphase dialog box, ANSYS 19.5 Download Archives. Also, a mini flow chart is used to indicate the menu selections that lead you to a specific command or dialog box. For example, Define → Injections. indicates that the Injections. menu item can be selected from the Define pull-down menu.

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Using This Manual The words surrounded by boxes invoke menus (or submenus) and the arrows point from a specific menu toward the item you should select from that menu.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow This tutorial is divided into the following sections: 1.1. Introduction 1.2. Prerequisites 1.3. Problem Description 1.4. Setup and Solution

1.1. Introduction This tutorial illustrates using ANSYS FLUENT fluid flow systems in ANSYS Workbench to set up and solve a three-dimensional turbulent fluid-flow and heat-transfer problem in a mixing elbow. It is designed to introduce you to the ANSYS Workbench tool set using a simple geometry. Guided by the steps that follow, you will create the elbow geometry and the corresponding computational mesh using the geometry and meshing tools within ANSYS Workbench. You will use ANSYS FLUENT to set up and solve the CFD problem, then visualize the results in both ANSYS FLUENT and in the CFD-Post postprocessing tool. Some capabilities of ANSYS Workbench (for example, duplicating fluid flow systems, connecting systems, and comparing multiple data sets) are also examined in this tutorial. This tutorial demonstrates how to do the following: •

Launch ANSYS Workbench.



Create a FLUENT fluid flow analysis system in ANSYS Workbench.



Create the elbow geometry using ANSYS DesignModeler.



Create the computational mesh for the geometry using ANSYS Meshing.



Set up the CFD simulation in ANSYS FLUENT, which includes: –

Setting material properties and boundary conditions for a turbulent forced-convection problem.



Initiating the calculation with residual plotting.



Calculating a solution using the pressure-based solver.



Examining the flow and temperature fields using ANSYS FLUENT and CFD-Post.



Create a copy 01W Editor for Win95 1 crack serial keygen the original FLUENT fluid flow analysis system in ANSYS Workbench.



Change the geometry in ANSYS DesignModeler, using the duplicated system.



Regenerate the computational mesh.



Recalculate a solution in ANSYS FLUENT.



Compare the results of the two calculations in CFD-Post.

1.2. Prerequisites This tutorial assumes that you have little to no experience with ANSYS Workbench, ANSYS DesignModeler, ANSYS Meshing, ANSYS FLUENT, or CFD-Post, ANSYS 19.5 Download Archives, and so each step will be explicitly described. Release 14.0 - © SAS IP, Inc. All rights reserved. - Contains ANSYS 19.5 Download Archives and confidential information of ANSYS, Inc. and its subsidiaries and affiliates.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

1.3. Problem Description The problem to be considered is shown schematically in Figure 1.1 (p. 2). A cold fluid at 293.15 K flows into the pipe through a large inlet and mixes with a warmer fluid at 313.15 K that enters through a smaller inlet located at the elbow. The mixing elbow configuration is encountered in piping systems in power plants and process industries. It is often important to predict the flow field and temperature field in the area of the mixing region in order to properly design the junction.

Note Because the geometry of the mixing elbow is symmetric, only half of the elbow needs to be modeled.

Figure 1.1 Problem Specification

1.4. Setup and Solution The following sections describe the setup and solution steps for this tutorial: 1.4.1. Preparation 1.4.2. Step 1: Creating a FLUENT Fluid Flow Analysis System in ANSYS Workbench 1.4.3. Step 2: Creating the Geometry in ANSYS DesignModeler 1.4.4. Step 3: Meshing the Geometry in the ANSYS Meshing Application 1.4.5. Step 4: Setting Up the CFD Simulation in ANSYS FLUENT 1.4.6. Step 5: Displaying Results in ANSYS FLUENT and CFD-Post 2

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Setup and Solution 1.4.7. Step 6: Duplicating the FLUENT-Based Fluid Flow Analysis System 1.4.8. Step 7: Changing the Geometry in ANSYS DesignModeler 1.4.9. Step 8: Updating the Mesh in the ANSYS Meshing Application 1.4.10. Step 9: Calculating a New Solution in ANSYS FLUENT 1.4.11. Step 10: Comparing the Results of Both Systems in CFD-Post 1.4.12. Step 11: Summary

1.4.1. Preparation To prepare for running this tutorial, set up a working folder on the computer you will be using. You can also download some files from the ANSYS Customer Portal web page, which you can reach via the Customer Portal link on the ANSYS Website at http://www.ansys.com. 1.

Obtain the Tutorial Inputs Archive from the ANSYS Customer Portal. a.

On the Customer Portal Home page, click Download Software. This takes you to the ANSYS Download Center Wizard.

b.

Click Next Step.

c.

Choose a Download ANSYS 19.5 Download Archives. Select the Current Release and Updates radio button.

d.

Click Next Step.

e.

Choose the Hardware Platform you are using.

f.

Click Next Step.

g.

At the bottom of the page, under the heading ANSYS ANSYS 19.5 Download Archives and Examples, check the box next to ANSYS Fluid Dynamics Tutorial Inputs.

h.

Click Next Step.

i.

Click the ANSYS Fluid Dynamics Tutorial Inputs link to download the ANSYS_Fluid_Dynamics_Tutorial_Inputs.zip file.

j.

Save and extract the .zip file to any convenient location. Tutorial mesh and solution files for each of the ANSYS Fluid Dynamics products are located in v140\Tutorial_Inputs\Fluid_Dynamics\.

2.

Copy the elbow-workbench.zip file from the FLUENT sub-folder of the ANSYS_Fluid_Dynamics_Tutorial_Inputs.zip archive.

3.

Unzip elbow-workbench.zip to your working folder. This file contains a folder, elbow-workbench, that holds four items: •

Two geometry files, elbow_geometry.agdb and elbow_geometry.stp



An ANSYS Workbench project file, elbow-workbench.wbpj



A project folder (elbow-workbench_files) containing supporting files such as solution and results files

Note ANSYS FLUENT tutorials are prepared using ANSYS FLUENT on a Windows system. The screen shots and graphic images in the tutorials may be slightly different than the appearance on your system, depending on ANSYS 19.5 Download Archives operating system or graphics card.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in ANSYS 19.5 Download Archives Mixing Elbow

1.4.2. Step 1: Creating a FLUENT Fluid Flow Analysis System in ANSYS Workbench In this step, you will start ANSYS Workbench, create a new FLUENT fluid flow analysis system, then review the list of files generated by ANSYS Workbench. 1.

Start ANSYS Workbench by clicking the Windows Start menu, then selecting the Workbench 14.0 option in the ANSYS 14.0 program group. Start → All Programs → ANSYS 14.0 → Workbench 14.0 This displays the ANSYS Workbench application window, ANSYS 19.5 Download Archives, which has the Toolbox on the left and the Project Schematic to its right. Various supported applications are listed in the Toolbox and the components of the analysis system will be displayed in the Project Schematic.

Note When you first start ANSYS Workbench, the Getting Started pop-up window is displayed, ANSYS 19.5 Download Archives, offering assistance through the online help for using the application. You can keep the window open, or close it by clicking the ‘X’ icon in the upper right-hand corner. If you need to access the online help at any time, use the Help menu, or press the F1 key, ANSYS 19.5 Download Archives. 2.

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Create a new FLUENT fluid flow analysis system by double-clicking the Fluid Flow (FLUENT) option under Analysis Systems in the Toolbox.

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Setup and Solution

Figure 1.2 Selecting the Fluid Flow (FLUENT) Analysis System in ANSYS Workbench

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow This creates a new FLUENT-based fluid flow analysis system in the Project Schematic.

Tip You can also drag-and-drop the analysis system into the Project Schematic. A green dotted outline indicating a potential location for the new system initially appears in the Project Schematic. When you drag the system to one of the outlines, it turns into a red box to indicate the chosen location of the new system.

Figure 1.3 ANSYS Workbench with a New FLUENT-Based Fluid Flow Analysis System

3.

4.

Name the analysis. a.

Double-click the Fluid Flow (FLUENT) label underneath the analysis system (if it is not already highlighted).

b.

Enter elbow for the name of the analysis system.

Save the project. a.

Select the Save option under the File menu in ANSYS Workbench. File → Save This displays the Save As dialog box, where you can browse to your working folder and enter a specific name for the ANSYS Workbench project.

b.

In your working directory, enter elbow-workbench as the project File name and click the Save button to save the project. ANSYS Workbench saves the project with a .wbpj extension and also saves supporting files for the project. Note that the fluid flow analysis system is composed of various cells (Geometry, Mesh, etc.) that represent the workflow for performing the analysis. ANSYS Workbench is composed of multiple data-integrated and native applications in a single, ANSYS 19.5 Download Archives, seamless project flow, where individual cells can obtain data from other cells and provide data to other cells. As a result of this constant flow of data, a cell’s state can quickly change. ANSYS Workbench provides a

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Setup and Solution visual indication of a cell’s state at any given time via icons on the right side of each cell. Brief descriptions of the various states are provided below: •

Unfulfilled ( ) indicates that required upstream data does not exist. For example, when you first create a new Fluid Flow (FLUENT) analysis system, all cells downstream of the Geometry cell appear as Unfulfilled because you have not yet specified a geometry for the system.



Refresh Required ( ) indicates that upstream data has changed since the last refresh or update. For example, after you assign a geometry to the geometry cell in your new Fluid Flow (FLUENT) analysis system, the Mesh cell appears as Refresh Required since the geometry data has not yet been passed from the Geometry cell to the Mesh cell.



Attention Required ( ) indicates that the current upstream data has been passed to the cell, however, you must take some action to proceed. For example, after you launch ANSYS FLUENT from the Setup cell in a Fluid Flow (FLUENT) analysis system that has a valid mesh, the Setup cell appears as Attention Required because additional data must be entered in ANSYS FLUENT before you can calculate a solution.



Update Required ( ) indicates that local data has changed and the output of the cell needs to be regenerated. For example, after you launch ANSYS Meshing from the Mesh cell in a Fluid Flow (FLUENT) analysis system that has a valid geometry, the Mesh cell appears as Update Required because the Mesh cell has all the data it needs to generate an ANSYS FLUENT mesh file, but the ANSYS FLUENT mesh file has not yet been generated.



Up To Date ( ) indicates that an update has been performed on the cell and no failures have occurred or that an interactive calculation has been completed successfully. For example, after ANSYS FLUENT finishes performing the number of iterations that you request, the Solution cell appears as Up-to-Date.



Interrupted ( ) indicates that you have interrupted an update (or canceled an interactive calculation that is in progress). For example, if you select the Cancel button in ANSYS FLUENT while it is iterating, ANSYS FLUENT completes the current iteration and then the Solution cell appears as Interrupted.



) indicates that the cell is locally up-to-date, but may change Input Changes Pending ( when next updated as a result of changes made to upstream cells. For example, if you change the Mesh in an Up-to-Date Fluid Flow (FLUENT) analysis system, the Setup cell appears as Refresh Required, and the Solution and Results cells appear as Input Changes Pending.



Pending ( ) indicates that a batch or asynchronous solution is in progress. When a cell enters the Pending state, you can interact with ANSYS 19.5 Download Archives project to exit Workbench or work with other parts of the project. If you make changes to the project that are upstream of the updating cell, then the cell will not be in an up-to-date state when the solution completes.

For more information about cell states, see Understanding Cell States. 5.

View the list of files generated by ANSYS Workbench. ANSYS Workbench allows you to easily view the ANSYS 19.5 Download Archives associated with your project using the Files view. To open the Files view, select the Files option under the View menu at the top of the ANSYS Workbench window. View → Files

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Figure 1.4 ANSYS Workbench Files View for the Project After Adding a FLUENT-Based Fluid Flow Analysis System

In the Files view, you will be able to see the name and type of file, the ID of the cell that the file is associated with, the size of the file, ANSYS 19.5 Download Archives location of the file, and other information. For more information about the Files view, see Files View. From here, you will create the geometry described in Figure 1.1 (p. 2), and later create a mesh and set up a fluid flow analysis for the geometry.

1.4.3. Step 2: Creating the Geometry in ANSYS DesignModeler For the geometry of your fluid flow analysis, you can create a geometry in ANSYS DesignModeler, or import the appropriate geometry file. In this step, you will create the geometry in ANSYS DesignModeler, then review the list of files generated by ANSYS Workbench.

Important Note the Attention Required icon ( ) within the Geometry cell for the system. This indicates that the cell requires data (for example, a geometry). Once the geometry is defined, the state of the cell will change accordingly. Likewise, ANSYS 19.5 Download Archives, the state of some of the remaining cells in the system will change.

Note If you would rather not create the geometry in ANSYS DesignModeler, you can import a preexisting geometry by right-clicking the Geometry cell and selecting the Import Geometry option from the context menu. From there, you can browse your file system to locate the elbow_geometry.agdb geometry file that is provided for this tutorial. If you do not have access to ANSYS DesignModeler, you can use the elbow_geometry.stp file instead. To learn how to create a mesh from the geometry you imported, go to ANSYS 19.5 Download Archives 3: Meshing the Geometry in the ANSYS Meshing Application (p, ANSYS 19.5 Download Archives. 19). 1.

Start ANSYS DesignModeler. In the ANSYS Workbench Project Schematic, double-click the Geometry cell in the elbow fluid flow analysis system. This displays the ANSYS DesignModeler application.

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Setup and Solution

Tip You can also right-click the Geometry cell to display the context menu, then select New Geometry. 2.

Set the units in ANSYS DesignModeler. When ANSYS DesignModeler first appears, you are prompted to select the desired system of length units to work from. For the purposes of this tutorial (where you will create the geometry in inches and perform the CFD analysis using SI units), select Inch as the desired length unit and click OK to close the prompt.

Figure 1.5 Setting the Units in ANSYS DesignModeler

3.

Create the geometry. The geometry for this tutorial (Figure 1.1 (p. 2)) consists ANSYS 19.5 Download Archives a large curved pipe accompanied by a smaller side pipe. To create the larger main pipe, you will use the Sweep operation. Sweeping requires the use of two sketches; one that ANSYS 19.5 Download Archives the profile to be swept and the other that defines the path through which the profile is to be swept. In this case, the profile is a half circle because the symmetry of the problem means that you do not have to generate the entire pipe geometry. a.

Set up the plane: i.

Create a new plane by selecting YZPlane from the Tree Outline, then clicking the New Plane icon in the Active Plane/Sketch toolbar near the top of the ANSYS Workbench window. Selecting YZPlane before you create the new plane ensures that the new plane is based on the YZPlane.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer MicroPOs crack serial keygen a Mixing Elbow

ii.

In the Details View for the new plane (Plane4), set Transform1 (RMB) to Offset Global X by clicking the word None to the right of Transform1 (RMB) and selecting Offset Global X from the drop-down menu. Set the Value of the offset to -8 in by clicking the 0 to the right of FD1, Value 1 and entering -8. Note that the inches measurement appears automatically when you click outside of this box.

iii.

To create the plane, click the Generate button DesignModeler toolbar.

iv.

Create a new sketch by selecting Plane4 from the Tree Outline and then clicking the New

which is located in the ANSYS

Sketch icon in the Active Plane/Sketch toolbar, near the top of ANSYS 19.5 Download Archives ANSYS Workbench window. Selecting the plane first ensures that the new sketch is based on Plane4.

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Setup and Solution

b.

c.

Set up the grid: i.

On the Sketching tab of the Tree Outline, open the Settings toolbox, select Grid, and enable the Show in 2D and the Snap options.

ii.

Set Major Grid Spacing to 1 inch and Minor-Steps per Major to 2.

Create the profile: i.

Zoom in on the center Scanner Archives - Windows Activator the grid so that you can see the grid lines clearly. You can do this by holding down the right mouse button UFI Dongle 1.6.0.2202 Crack [Without Box] FREE Download dragging a box over the desired viewing area. Release 14.0 - © SAS IP, Inc. All rights reserved. - Contains proprietary and confidential information of ANSYS, Inc. and its subsidiaries and affiliates.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow ii. On the Sketching tab, open the Draw toolbox and select Arc by Download edius 9.55 full crack Archives (you may need to use the arrows in the toolbox to scroll down to see the correct tool), ANSYS 19.5 Download Archives. You will be drawing an arc with a radius of 2 inches, centered on Y=- 6 inches, Z=0 inches ANSYS 19.5 Download Archives below the origin of Plane4). The grid settings that you have just set up will help you to position the arc and set its radius correctly. To create the arc, click the point where you want to create the center of the circle (in this case, ANSYS 19.5 Download Archives, Y=- 6 inches, Z=0 inches). Then click the point where you want to start drawing the arc (in this case Y=- 4 inches, Z=0 inches), ANSYS 19.5 Download Archives. At this stage, when you drag the unclicked mouse, DesignModeler will create an arc with a fixed ANSYS 19.5 Download Archives. With the mouse button unclicked, drag through an arc of 180°. Click on Y=- 8 inches, Z=0 inches to stop the drawing process. Your drawing should now resemble Figure 1.6 (p. 13) iii.

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Next you will close the half-circle with a line that joins the two arc ends. On the Sketching tab, ANSYS 19.5 Download Archives, in the Draw toolbox, select Line (you may need to use the arrows in the toolbox to scroll up to see the correct tool). Draw a line from Y=- 4 inches, Z=0 inches to Y=- 8 inches, Z=0 inches. This closed half-circle will be used as the profile during the sweep.

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Setup and Solution

Figure 1.6 Creating the Arc Profile

d.

Create the path: i.

On the Modeling tab select XYPlane, then click the New Sketch icon and then the Generate button to create a new sketch based on the XYPlane.

ii.

On the Sketching tab, open the Settings toolbox, select Grid, and enable the Show in 2D and the Snap options.

iii.

Set Major Grid Spacing to 1 inch and Minor-Steps per Major to 2.

iv.

In the Draw toolbox, select Line to draw two straight lines on the sketch. For reference, the coordinates of the endpoints of the lines are ( = − inches, = − inches), ( = inches,  = − inches) for the horizontal line and ( = inches, = inches), ( = inches,  = inches) for the vertical line.

v.

In the Draw toolbox, select Arc by Center and ANSYS 19.5 Download Archives once on the origin (center of the arc). Now click once on the point  = inches, = inches to select one of the end points of the arc. With the mouse unclicked, move the mouse around to the other end point Release 14.0 - © SAS IP, Inc. All rights reserved. - Contains proprietary and confidential information of ANSYS, Inc. and its subsidiaries and affiliates.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

( = inches, = − inches) and click it to draw the quarter-circle. If the wrong part of the arc is drawn and it does not resemble Figure 1.7 (p. 14), click Undo from the Undo/Redo toolbar and try again. Together, the arc and the two straight lines form a curving line that is the path through which the half-circle profile will be swept.

Figure 1.7 Creating the Elbow Path

e.

14

Create the pipe: from the 3D Features toolbar.

i.

Select ANSYS 19.5 Download Archives Sweep button

Virtual Dj 7 pro full crack serial keygen Set the Profile to be Sketch1 by clicking Sketch1 in the Tree Outline and then clicking Apply next to Profile in the Details View at the bottom-left of the screen.

iii.

Set the Path to Sketch2: Click Sketch2 in the Tree Outline, then click the Not selected text next to Path in the Details View and click Apply.

iv.

Click the Generate ANSYS 19.5 Download Archives to create the pipe.

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Setup and Solution

Figure 1.8 Generating the Pipe

f.

View and manipulate the image: You can use the mouse buttons to change your view of this 3D image. The following table describes mouse actions that are available:

Table 1.1 DesignModeler View Manipulation Instructions Action

Using ANSYS 19.5 Download Archives Toolbar Buttons and the Mouse

Rotate view (vertical, horizontal)

After clicking the Rotate icon,ANSYS 19.5 Download Archives, press and hold the left mouse button ANSYS 19.5 Download Archives drag the mouse. Dragging side to side rotates the view about the vertical axis, and dragging up and down rotates the view about the horizontal WinASO Registry Optimizer v3.2 crack serial keygen Release 14.0 - © SAS IP, Inc. All rights reserved. - Contains proprietary and confidential information of ANSYS, Inc. and its subsidiaries and affiliates.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow Action

Using Graphics Toolbar Buttons and the Mouse

Translate or ANSYS 19.5 Download Archives view

After clicking the Pan icon,press and hold the left mouse button and drag the object with the mouse until the view is satisfactory.

Zoom in and out of view

After clicking the Zoom icon,press and hold the left mouse button and drag the mouse up and down to zoom in and out of the view.

Box zoom

press and hold the left mouse After clicking the Box Zoom icon, ANSYS 19.5 Download Archives and drag the mouse diagonally across the screen. This action will cause a rectangle to appear in the display. When you release the mouse button, a new view will be displayed which consists entirely of the contents of the rectangle.

Clicking the Zoom to Fit icon, window. g.

16

will cause the object to fit exactly and be centered in the

Create the side pipe: i.

Create a new plane based on the ZXPlane. As before, first make the ZXPlane active by clicking on it, then click the New Plane icon to create the plane based upon it.

ii.

In the Details View, set Transform 1 (RMB) to Offset Global X, and set the FD1, Value 1 of the offset to 5.5 inches.

iii.

Set Transform 2 (RMB) to Offset Global Y and the FD2, Value 2 of the offset to -9 inches.

iv.

Click Generate to create the plane.

v.

With the ANSYS 19.5 Download Archives plane selected in the Tree Outline, click the New Sketch icon.

vi.

As with the main pipe, a profile will be created, but with the side pipe, the Extrude operation will be used to create the body of the pipe. On the Sketching tab, open the Draw toolbox and select Arc by Center. You will be drawing a 180° arc that is centered on the origin, with the two ends on the X axis. The radius for this arc will be adjusted later, so you can use any convenient radius for now. Click once on the origin, then once some distance along the X axis in either a positive or a negative direction. With the mouse button unclicked, draw an arc to the opposite side of the origin and click the X axis again.

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Setup and Solution ANSYS 19.5 Download Archives. To adjust the radius, open the Dimensions toolbox on the Sketching tab and select Radius. Click once on the curve of the arc you have just created then click once on the radius (anywhere between the arc and the origin). In the Details View under the Dimensions: 1 section, set the radius, R1 to 0.5 inches.

viii. Next you will close the half-circle with a line that joins the two arc ends. On the Sketching tab, in the Draw toolbox, select Line. Draw a line connecting the open ends of the arc. This closed half-circle will be used as the profile for the extrude operation. from the 3D Features toolbar.

ix.

Click the Extrude button

ANSYS 19.5 Download Archives In the Details View, set Geometry to be the new sketch (Sketch3), and set Operation to Add Material.

xi.

Set Direction to Normal and Extent Type to Fixed. Set FD1, Wondershare Video Converter Ultimate 10.4.3 Crack (>0) to 4 inches.

xii. Click Generate to create the side pipe.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Figure 1.9 Generating the Additional Pipe

h.

18

Specify the geometry as a fluid body. i.

In the Tree Outline, ANSYS 19.5 Download Archives, open the 1 Part, 1 Body branch and select Solid.

ii.

In the Details View of the body, change the name of the Body from Solid to Fluid.

iii.

In the Fluid/Solid section, select Fluid.

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Setup and Solution

ANSYS 19.5 Download Archives Click Generate.

4.

Close ANSYS DesignModeler by selecting File → Close DesignModeler or by clicking the ‘X’ icon in the upper right-hand corner. ANSYS Workbench automatically saves the geometry and updates the Project Schematic accordingly. The question mark in the Geometry cell is replaced by a check mark, indicating that there is a geometry now associated with the fluid flow analysis system.

5.

View the list of files generated by ANSYS Workbench by selecting View → Files.

Figure 1.10 ANSYS Workbench Files View for the Project After Creating the Geometry

Note the addition of the geometry file (FFF.agdb, where FFF indicates a FLUENT-based fluid flow system) to the list of files. If you had imported the geometry file provided for this tutorial rather than creating the geometry yourself, the elbow_geometry.agdb (or the elbow_geometry.stp) file would be listed instead.

1.4.4. Step 3: Meshing the Geometry in the ANSYS Meshing Application Now that you have created the mixing elbow geometry, you need to generate a computational mesh for throughout the flow volume. For this section of the tutorial, you will use the ANSYS Meshing application to create a mesh for your CFD analysis, then review the list of files generated by ANSYS Workbench.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Important Note the Refresh Required icon ( ) within the Mesh cell for the system. This indicates that the state of the cell requires a refresh and that upstream data has changed since the last refresh or update (such as an update to the geometry). Once the mesh is defined, the state of the Mesh cell will change accordingly, as will the state of the next cell in the system, in this case the Setup cell.

1.

Open the ANSYS Meshing application. In the ANSYS Workbench Project Schematic, double-click the Mesh cell in the elbow fluid flow analysis system (cell A3). This displays the ANSYS Meshing application with the elbow geometry already loaded. You can also right-click the Mesh cell to display the context menu where ANSYS 19.5 Download Archives can select the Edit. option.

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Setup and Solution

Figure 1.11 The ANSYS Meshing Application with the Elbow Geometry Loaded

Important The first time you open the ANSYS Meshing application, the Meshing Options are displayed on the right-hand side of the application window. For this tutorial, no meshing options need to be set, so click OK to close the Meshing Options pane. 2.

Create named selections for the geometry boundaries. In order to simplify your work later on in ANSYS FLUENT, you should label each boundary in the geometry by creating named selections for the pipe inlets, the outlet, and the symmetry surface (the outer wall boundaries are ANSYS 19.5 Download Archives detected by ANSYS FLUENT). a.

Select the large inlet in the geometry that is displayed in the ANSYS Meshing application.

Tip Use the Graphics Toolbar buttons and the mouse to manipulate the image until you can easily see the pipe openings and surfaces.

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ANSYS 19.5 Download Archives 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Tip To select the inlet, the Single select (

b.

) mode must be active.

Right-click and select the Create Named Selection option.

Figure 1.12 Selecting a Face to Name

This displays the Selection Name dialog box. 22

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Setup and Solution

Figure 1.13 Applying a Name to a Selected Face

c.

In the Selection Name dialog box, enter velocity-inlet-large for the name and click OK.

d.

Perform the same operations for: •

The small inlet (velocity-inlet-small)



The large outlet (pressure-outlet)



The symmetry planes (symmetry).

Note To select multiple planes, hold down the Ctrl key and select the individual planes in the graphics window.

Important It is important to note that by using the strings “velocity inlet” and “pressure outlet” in the named selections (with or without hyphens or underscore characters), ANSYS FLUENT automatically detects and assigns the corresponding boundary types accordingly. 3.

Set some basic meshing parameters for the ANSYS Meshing application, ANSYS 19.5 Download Archives. For this analysis, you will adjust several meshing parameters to obtain a finer mesh. a.

In the Outline view, select Mesh under Project/Model to display the Details of “Mesh” view below the Outline view.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Important Note that because the ANSYS Meshing application automatically detects that you are going to perform a CFD fluid flow analysis using ANSYS FLUENT, the Physics Preference is already set to CFD and the Solver Preference is already set to Fluent. b.

c.

Expand the Sizing node by clicking the “+” sign to the left of the word Sizing to reveal additional sizing parameters. i.

Change Relevance Center to Fine by clicking the on the default value, Coarse, and selecting Fine from the drop down list.

ii.

Change Smoothing to High

iii.

Change Curvature Normal Angle to 10°.

Add a Body Sizing control. i.

With Mesh still selected in the Outline tree, change the selection filter to Body in the Graphics Toolbar (

).

ii.

Click the elbow in the graphics display to select it.

iii.

Right click in the graphics area and select Insert → Sizing from the context menu.

A new Body Sizing entry appears under Mesh in the project Outline tree

24

iv.

Click the new Body Sizing control in the Outline tree.

v.

Enter 6e-3 for Element Size. Release 14.0 - © SAS IP, Inc. All rights reserved. - Contains proprietary and confidential information of ANSYS, Inc. and its subsidiaries and affiliates.

Setup and Solution d. 4.

Click again on Mesh in the Outline view and expand the Inflation node to reveal additional inflation parameters. Change Use Automatic Inflation to Program Controlled.

Generate the mesh. Right-click Mesh in the project Outline tree, and select Update in the context menu.

Figure 1.14 The Computational Mesh for the Elbow Geometry in the ANSYS Meshing Application

ANSYS 19.5 Download Archives Using the Generate Mesh option creates the mesh, ANSYS 19.5 Download Archives, but does not actually create the relevant mesh files for the project and is optional if you already know ANSYS 19.5 Download Archives the mesh is acceptable. Using the Update option automatically generates the mesh, ANSYS 19.5 Download Archives, creates the relevant mesh files ANSYS 19.5 Download Archives your project, and updates the ANSYS Workbench cell that references this mesh.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Note Once the mesh is generated, you can view the mesh statistics by opening the Statistics node in the Details of “Mesh” view. This will display information such as the number of nodes and the number of elements. 5.

Close the ANSYS Meshing application. You can close the ANSYS Meshing application without saving it because ANSYS Workbench automatically saves the mesh and updates the Project Schematic accordingly. The Refresh Required icon in the Mesh cell has been replaced by a check mark, indicating that there is a mesh now associated with the fluid flow analysis system.

6.

View the list of files generated by ANSYS Workbench. View → Files

Figure 1.15 ANSYS Workbench Files View for the Project After Mesh Creation

Note the addition of the mesh files (FFF.msh and FFF.mshdb) to the list of files. The FFF.msh file is created when you update the mesh, and the FFF.mshdb file is generated when you close the ANSYS Meshing application.

1.4.5. Step 4: Setting Up the CFD Simulation in ANSYS FLUENT Now that you have created a computational mesh for the elbow geometry, in this step you will set up a CFD analysis using ANSYS FLUENT, then review the list of files generated by ANSYS Workbench. 1.

Start ANSYS FLUENT. In the ANSYS Workbench Project Schematic, double-click the Setup cell in the elbow fluid flow analysis system. You can also right-click the Setup cell to display the context menu where you can select the Edit. option. When ANSYS FLUENT ANSYS 19.5 Download Archives first started, the FLUENT Launcher is displayed, ANSYS 19.5 Download Archives, enabling you to view and/or set certain ANSYS FLUENT start-up options.

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Setup and Solution

Note The FLUENT Launcher allows you to decide which version of ANSYS FLUENT you will use, based on your geometry and on your processing capabilities.

Figure 1.16 FLUENT Launcher

a.

Ensure that the proper options are enabled.

Important Note that the Dimension setting is already filled in and cannot be changed, since ANSYS FLUENT automatically sets it based on the mesh or geometry for the current system. i.

Make sure that Serial from the Processing Options list is enabled.

ii.

Make sure that the Display Mesh After Reading, Embed Graphics Windows, and Workbench Color Scheme options are enabled.

Note An option is enabled when there is a check mark in the check box, and disabled when the check box is empty. To change an option from disabled to enabled (or ANSYS 19.5 Download Archives versa), click the check box or the text, ANSYS 19.5 Download Archives. iii. b.

Make sure that the Double Precision option is disabled.

Click OK to launch ANSYS FLUENT.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow ANSYS 19.5 Download Archives Heat Transfer in a Mixing ANSYS 19.5 Download Archives Figure 1.17 The ANSYS FLUENT Application

Note The mesh is automatically loaded and displayed in the graphics window by default. 2.

Set some general settings for the CFD analysis.

Note Select General in the navigation pane to perform the mesh-related activities and to choose a solver. General

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Setup and Solution

a.

Change the units for length. Because you want to specify and view values based on a unit of length in inches from within ANSYS FLUENT, change the units of length within ANSYS FLUENT from meters (the default) to inches.

Important Note that the ANSYS Meshing application automatically converts and exports meshes for ANSYS FLUENT using meters (m) as the unit of length regardless of what units were used to create them. This is so you do not have to scale the mesh in ANSYS FLUENT under ANSYS Workbench. General → Units. This displays the Set Units dialog box.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

i.

Select length in the Quantities list.

ii.

Select in in the Units list.

iii.

Close the dialog box.

Note Now, all subsequent inputs that require a value ANSYS 19.5 Download Archives on a unit of length can be specified in inches rather than meters. b.

Check the mesh. General → Check

Note ANSYS FLUENT will report the results of the mesh check in the console. Domain Extents: x-coordinate: min (m) = -2.032000e-01, max (m) = 2.032000e-01 y-coordinate: min (m) = -2.286000e-01, max (m) = 2.032000e-01 z-coordinate: min (m) = -2.332952e-18, max (m) = 5.080000e-02 Volume statistics: minimum volume (m3): 1.148430e-10 maximum volume (m3): 5.741104e-08 total volume (m3): 2.633922e-03 Face area statistics: minimum face area (m2): 2.147325e-07 maximum face area (m2): 3.444069e-05 Checking mesh., ANSYS 19.5 Download Archives. Done.

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Setup and Solution

Note The minimum and maximum values may vary slightly when running on different platforms. The mesh check will list the minimum and maximum x and y values from the mesh in the default SI unit of meters. It will also ANSYS 19.5 Download Archives a number of other mesh features that are checked. Any errors in the mesh will be reported at this time. Ensure that the minimum volume is not negative as ANSYS FLUENT cannot begin a calculation when this is the case. 3.

Set up your models for the CFD simulation. Models

a.

Enable heat transfer by activating the energy equation. Models →

Energy → Edit.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Note You can also double-click a list item in order to open the corresponding dialog box.

b.

i.

Enable the Energy Equation option.

ii.

Click OK to close the Energy dialog box.

Enable the -  turbulence model. Models →

i.

Viscous → Edit.

Select k-epsilon from the Model list.

Note The Viscous Model dialog box will expand.

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Setup and Solution ANSYS 19.5 Download Archives Use the default Standard from the k-epsilon Model list.

iii.

Select Enhanced Wall Treatment for the Near-Wall Treatment.

Note The default Standard Wall Functions are generally applicable if the first cell center adjacent to the wall has a y+ larger than 30. In contrast, the Enhanced Wall Treatment option provides consistent solutions for all y+ values. Enhanced Wall Treatment is recommended when using the k-epsilon model for general single-phase fluid flow problems. For more information about Near Wall Treatments in the k-epsilon model please refer to Setting Up the k- ε Model in the User’s Guide. iv. 4.

Click OK to accept the model and close the Viscous Model dialog box.

Set up your materials for the CFD simulation. Materials

a.

Create a new material called water using the Create/Edit Materials dialog box (Figure 1.18 (p. 34)). Materials → i.

Fluid → Create/Edit.

Type water for Name.

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33

Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow ii. Enter the following values in the Properties group box: Property

Value

Density

 1000  

 (Specific Heat)

4216   − 

Thermal Conductivity

0.677 −

Viscosity

8e-04   − 

Figure 1.18 The Create/Edit Materials Dialog Box

iii.

Click Change/Create.

Note A Question dialog box will open, asking if you want to overwrite ANSYS 19.5 Download Archives. Click No so that the new material water is added to the Fluent Fluid Materials list of materials that originally contained only air.

34

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Setup and Solution

Extra You could have copied the material water-liquid (h2o < l >) from the materials database (accessed by clicking the ANSYS FLUENT Database. button). If the properties in the database are different from those you want to use, you can edit the values in the Properties group box in the Create/Edit Materials dialog IObit Driver Booster Pro 8.7.0.529 Crack Key With Torrent 2022 and click Change/Create to update your local copy, ANSYS 19.5 Download Archives. The original copy will not be affected. iv.

Make sure that there are now two materials (water and air) defined locally by examining the Fluent Fluid Materials drop-down list.

Note Both the materials will also be listed under Fluid in the Materials task page. v. 5.

Close the Create/Edit Materials dialog box.

Set up the cell zone conditions for the CFD simulation. Cell Zone Conditions

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

a.

Set the cell zone conditions for the fluid zone. i.

Select fluid in the Zone list in the Cell Zone Conditions task page, then click Edit. to open the Fluid dialog box.

Note You can also double-click a list item in order to open the corresponding dialog box.

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Setup and Solution

6.

ii.

In the Fluid dialog box, select water from the Material Name drop-down list.

iii.

Click OK to close the Fluid dialog box.

Set up the boundary conditions for the CFD analysis, ANSYS 19.5 Download Archives. Boundary Conditions

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

a.

Set the boundary conditions at the cold inlet (velocity-inlet-large). Boundary Conditions →

velocity-inlet-large → Edit.

This opens the Velocity Inlet dialog box.

Tip If you are unsure of which inlet zone corresponds to the cold inlet, you can use the mouse to probe for mesh information in the graphics window. If you ANSYS 19.5 Download Archives the right mouse button with the pointer on any node in the mesh, information about the associated zone will be displayed in the ANSYS FLUENT console, including the name of the zone. The zone you probed will be automatically selected from the Zone selection list in the Boundary Conditions task page. Alternatively, you can click the probe button ( ) in the graphics toolbar and click the left mouse button on any node. This feature is especially useful when you have several zones of the same type and you want to distinguish between them quickly. The information will be displayed in the console.

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Setup and Solution

i.

Select Components from the Velocity Specification Method drop-down list.

Note The Velocity Inlet dialog box will expand. ii. iii.

 for X-Velocity. Retain the default value of 0   for both Y-Velocity and Z-Velocity.

Enter 0.4

iv.

Select Intensity and Hydraulic Diameter from the Specification Method drop-down list in the Turbulence group box.

v.

Enter 5

vi.

Enter 4 inches for Hydraulic Diameter.

for Turbulent Intensity.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Note The hydraulic diameter

 is defined as:

 =   where  is the cross-sectional area and  is the wetted perimeter. vii, ANSYS 19.5 Download Archives. Click the Thermal tab.

viii. Enter 293.15 ix. b.

for Temperature.

Click OK to close the Velocity Inlet dialog box.

In a similar manner, set the boundary conditions at the hot inlet (velocity-inlet-small), using the values in the following table: Boundary Conditions →

Velocity Specification Method

Components

X-Velocity

0

Y-Velocity 40

velocity-inlet-small → Edit.

1.2 

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Setup and Solution

c.



Z-Velocity

0

Specification Method

Intensity & Hydraulic Diameter

Turbulent Intensity

5

Hydraulic Diameter

1 ANSYS 19.5 Download Archives Temperature

313.15



Wondershare PDFelement Pro 8.2.13.984 Crack + Serial Key (2022) the boundary conditions at the outlet (pressure-outlet), as shown in the Pressure Outlet dialog box. Boundary Conditions →

pressure-outlet → Edit.

Note ANSYS FLUENT will use the backflow conditions only if the fluid is flowing into the computational domain through the outlet. Since backflow might occur at some point during the solution procedure, you should set reasonable backflow conditions to prevent convergence from being adversely affected. 7.

Set up solution parameters for the CFD simulation.

Note In the steps that follow, you will set up and run the calculation using the task pages listed under the Solution heading in the navigation pane.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow a. Examine the convergence criteria for the equation residuals. Monitors →

Residuals → Edit.

i.

Make sure that Plot is enabled in the Options group box.

ii.

Keep the default values for the Absolute ANSYS 19.5 Download Archives of the Residuals, as shown in the Residual Monitors dialog box.

iii.

Click OK to close the Residual Monitors dialog box.

Note By default, all variables will be ANSYS 19.5 Download Archives and checked by ANSYS FLUENT as a means to determine the convergence of the solution. b.

Create a surface monitor at the outlet (pressure-outlet) It is good practice to monitor physical solution quantities in addition to equation residuals when assessing convergence. Monitors → Create. (Surface Monitors)

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Setup and Solution

i.

Retain the default entry of surf-mon-1 for the Name of the surface monitor.

ii.

Enable the Plot option for surf-mon-1.

iii.

Set Get Data Every to 3 by clicking the up-arrow button. This setting instructs ANSYS FLUENT to update the plot of the surface monitor and write data to a file after every 3 iterations during the solution.

ANSYS 19.5 Download Archives Select Mass-Weighted Average from the Report Type drop-down list.

v.

Select Temperature. and Static Temperature from the Field Variable drop-down lists.

vi.

Select pressure-outlet from the Surfaces selection list.

vii, ANSYS 19.5 Download Archives. Click OK to save the surface monitor settings and close the Surface Monitor dialog box. The name and report type of the surface monitor you created will be displayed in the Surface Monitors selection list in the Monitors task page. c.

Change the Gradient method. Solution Methods

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

In the Spatial Discretization section of the Solution Methods pane, change the Gradient to Green-Gauss Node Based. This gradient method is suggested for tetrahedral meshes. d.

Initialize the flow field. Solution Initialization

44

i.

Keep the default of Hybrid Initialization from the Initialization Methods group box.

ii.

Click Initialize.

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Setup and Solution e.

Check to see if the case conforms to best practices. Run Calculation → Check Case

8.

i.

Click the Mesh and Solver tabs and examine the Recommendation in each. These recommendations can be ignored for this tutorial. The issues they raise will be addressed in later tutorials.

ii.

Close the Case Check dialog box.

Calculate a solution. a.

Start the calculation by requesting 300 iterations. Run Calculation

i.

Enter 300 for Number of Iterations.

ii.

Click Calculate.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Important Note that the ANSYS FLUENT settings file (FFF.set) is written before the calculation begins.

Important Note that while the program is calculating the solution, the states of the Setup and Solution cells in the fluid flow ANSYS FLUENT analysis system in ANSYS Workbench are changing. For example: •

The state of the Setup cell becomes Up-to-Date and the state of the Solution cell becomes Refresh Required after the Run Calculation task page is visited and the number of iterations is specified.



The state of the Solution cell is Update Required while iterations are taking place.



The state of the Solution cell is Up-to-Date when the specified number of iterations are complete (or if convergence is reached).

Note As the calculation progresses, the surface monitor history will be plotted in the graphics window (Figure 1.19 (p. 47)).

Note The solution will be stopped by ANSYS FLUENT when the residuals reach their specified values or after 300 iterations. The exact number of iterations will vary depending on the platform being used, ANSYS 19.5 Download Archives. An Information dialog box will open to alert you that the calculation is complete. Click OK in the Information ANSYS 19.5 Download Archives box to proceed. Because the residual values vary slightly by platform, the plot that appears on your screen may not be exactly the same as the one shown here.

46

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Setup and Solution

Figure 1.19 Convergence History of the Mass-Weighted Average Temperature

You can display the residuals history (Figure 1.20 (p. 48)), by selecting it from the graphics window drop-down list.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Figure 1.20 Residuals for the Converged Solution

b.

48

Examine the plots for convergence (Figure 1.20 (p. 48) and Figure 1.19 (p. 47)).

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Setup and Solution

Note There are no universal metrics for judging convergence. Residual definitions that are useful for one class of problem are sometimes misleading for other classes of problems. Therefore it is a good idea to judge convergence not only by examining residual levels, but also by monitoring relevant integrated quantities and checking for mass and energy balances. There are three indicators that convergence has been reached: •

The residuals have decreased to a sufficient degree. The solution has converged when the Convergence Criterion for each variable has been reached. The default criterion is that each residual will be reduced − to a value of less thanexcept the energy residual, for which the default − criterion is .



The solution no longer changes with more iterations. Sometimes the residuals may not fall below the convergence criterion set in the case setup, ANSYS 19.5 Download Archives. However, monitoring the representative flow variables through iterations may show that the residuals have stagnated and do not change with further iterations. This could also be considered as convergence.



The overall mass, momentum, energy, and scalar balances are obtained. You can examine the overall mass, momentum, energy and scalar balances in the Flux Reports dialog box. The net imbalance should be less than 0.2 of the net flux through the domain when the solution has converged, ANSYS 19.5 Download Archives. In the next step you will check to see if the mass balance indicates convergence.

9.

View the list of files generated by ANSYS Workbench. View → Files

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in ANSYS 19.5 Download Archives Mixing Elbow

Figure 1.21 ANSYS Workbench Files View for the Project After Generating a Solution

Note that the status of the Solution cell is now up-to-date.

1.4.6. Step 5: Displaying Results in ANSYS FLUENT and CFD-Post In this step, you will display the results of the simulation in ANSYS FLUENT, display the results in CFDPost, then review the list of files generated by ANSYS Workbench. 1.

Display results in ANSYS FLUENT. With ANSYS FLUENT still running, you can perform a simple evaluation of the velocity and temperature contours on the symmetry plane. Later, you will use CFD-Post (from within ANSYS Workbench) to perform the same evaluation. a.

Display filled contours of velocity magnitude on the symmetry ANSYS 19.5 Download Archives (Figure 1.22 (p. 52)). Graphics and Animations →

Contours → Set Up.

Note You can also double-click a list item in order to open the corresponding dialog box.

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Setup and Solution

i.

In the Contours dialog box, enable Filled in the Options group box.

ii.

Make sure that Node Values is enabled in the Options group box.

iii.

Select Velocity. and Velocity Magnitude from the Contours of drop-down lists.

iv.

Select symmetry from the Surfaces selection list.

v.

Click Display to display the contours in the active graphics window.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Figure 1.22 Velocity Distribution Along Symmetry Plane

b.

Display filled contours of temperature on the symmetry plane (Figure 1.23 (p. 54)). Graphics and Animations →

52

Contours → Set Up.

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Setup and Solution

i.

Select Temperature. and Static Temperature from the Contours of drop-down lists.

ii.

Click Display and close the Contours dialog box.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Figure 1.23 Temperature Distribution Along Symmetry Plane

c.

Close the ANSYS FLUENT application. File → Close FLUENT

Important Note that the ANSYS FLUENT case and data files are automatically saved when you exit ANSYS FLUENT and return to ANSYS Workbench, ANSYS 19.5 Download Archives. d.

View the list of files generated by ANSYS Workbench. View → Files

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Setup and Solution

Figure 1.24 ANSYS Workbench Files View for the Project After Exiting ANSYS FLUENT

Note the addition of the compressed ANSYS Third Wave of Corona in India - Precaution needed to Stay Safe at Home case file (FFF-1.cas.gz) and corresponding data file (FFF-1-00236.dat.gz) to the list of files. Also note that the name of the data file is based on the number of iterations, so your data file name may be different. 2.

Display results in CFD-Post. ANSYS 19.5 Download Archives Start CFD-Post. In the ANSYS Workbench Project ANSYS 19.5 Download Archives, double-click the Results cell in the elbow fluid flow analysis system (cell A6). This displays the CFD-Post application. You can also rightclick the Results cell to display the context menu where you can select the Edit. option.

Note The elbow geometry is already loaded and is displayed in outline mode. ANSYS FLUENT case and data files are also automatically loaded into CFD-Post.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a ANSYS 19.5 Download Archives Elbow

Figure 1.25 The Elbow Geometry Loaded into CFD-Post

b.

Reorient the display. Click the blue Z axis on the axis triad in the bottom right hand corner of the graphics display to orient the display so that the view is of the front of the elbow geometry.

c.

Ensure that Highlighting (

d.

Display filled contours of velocity magnitude on the symmetry plane (Figure 1.26 (p. 58)). i.

) is disabled.

Insert a contour object using the Insert menu item at the top of the CFD-Post window. Insert → Contour This displays the Insert Contour dialog box.

56

ii.

Keep the default name of the contour (Contour 1) and click OK to close the dialog box. This displays the Details of Contour 1 view below the Outline view in CFD-Post. This view contains all of the settings for a contour object.

iii.

In the Geometry tab, select fluid in the Domains list.

iv.

Select symmetry in the Locations list.

v.

Select Velocity in the Variable list.

vi.

Click Apply.

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Setup and Solution

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing ANSYS 19.5 Download Archives Figure 1.26 Velocity Distribution Along Symmetry Plane

e.

Display filled contours of temperature on the symmetry plane (Figure 1.27 (p. 59)). i.

Click the check-marked box beside the Contour 1 object under User Locations and Plots to deselect the Contour 1 object and hide the first contour display.

ii.

Insert a contour object. Insert → Contour This displays the Insert Contour dialog box.

58

iii.

Keep the default name of the contour (Contour 2) and click OK to close the dialog box. This displays the Details of Contour 2 view below the Outline view.

iv.

In the Geometry tab, select fluid from the Domains list.

v.

Select symmetry in the Locations list.

vi.

Select Temperature in the Variable list. Release 14.0 - © SAS IP, Inc. All rights reserved. - Contains proprietary and confidential information of ANSYS, Inc. and its subsidiaries and affiliates.

Setup and Solution vii, ANSYS 19.5 Download Archives. Click Apply.

Figure 1.27 Temperature Distribution Along Symmetry Plane

3.

Close ANSYS 19.5 Download Archives CFD-Post application by selecting File → Close CFD-Post or by clicking the ‘X’ in the top right Switch Sound File Converter 9.21 Crack Plus Serial Key 2021 of the window.

Important Note that the CFD-Post state files are automatically saved when you exit CFDPost and return to ANSYS ANSYS 19.5 Download Archives. 4.

Save the elbow-workbench project in ANSYS Workbench.

5.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Figure 1.28 ANSYS Workbench Files View for the Project After Viewing Results in CFD-Post

Note the addition of the CFD-Post state file (elbow.cst) to the list of files. For more information about CFD-Post (and the files associated with it), see the CFD-Post documentation.

1.4.7. Step 6: Duplicating Midiculous pro keygen,serial,crack,generator,unlock FLUENT-Based Fluid Flow Analysis System At this point, you have a completely WinISO 6.4.1 Registration Code 2021 With Crack [Latest] fluid flow system that is comprised of a geometry, a computational mesh, a CFD setup and solution, and corresponding results. In order to study the effects upon the flow field that may occur if you were to alter the geometry, another fluid flow analysis is required. One approach would be to use the current system and change the geometry, however you would overwrite the data from your previous simulation. A more suitable and effective approach would be to create a copy, or duplicate, of the current system, and then make the appropriate changes to the duplicate system. In this step, you will create a duplicate of the original FLUENT-based fluid flow system, then review the list of files generated by ANSYS Workbench. 1.

60

In the Project Schematic, right-click the title cell of the Fluid Flow (FLUENT) system and select Duplicate from the context menu.

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Setup and Solution

Figure 1.29 Duplicating the Fluid Flow System

Figure 1.30 The Original Fluid Flow System and Its Duplicate

Note Notice that in the duplicated system, the state of the Solution cell indicates that the cell requires an update while the state of the Results cell indicates that the cell requires attention. This is because when a system is duplicated, the case and data files are not copied to the new system, therefore, the new system does not yet have solution data associated with it. 2.

Rename the duplicated system to new-elbow.

3.

Save the elbow-workbench project in ANSYS Workbench.

1.4.8. Step 7: Changing the Geometry in ANSYS DesignModeler Now that you have two separate, but equivalent, FLUENT-based fluid flow systems to work from, you can make changes to the second system without impacting the original system. In this step, you will make a slight alteration to the elbow geometry in ANSYS DesignModeler by changing the diameter of the smaller inlet, then review the list of files generated by ANSYS Workbench. 1.

Open ANSYS DesignModeler.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow Double-click the Geometry cell of the new-elbow system (cell B2) to display the geometry in ANSYS DesignModeler. 2.

62

Change the diameter of the small inlet (velocity-inlet-small). a.

Select Sketch3, under Extrude1 to open the Details View of the small inlet extrusion.

b.

In the Details View, under Dimensions:1, change the R1 (radius) value from 0.5 inches to 0.75 inches.

c.

Click the Generate button to generate the geometry with your new values.

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Setup and Solution

Figure 1.31 Changing the Diameter of the Small Inlet in ANSYS DesignModeler

3.

Close ANSYS DesignModeler.

4.

View the list of files generated by ANSYS Workbench. View → Files

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Figure 1.32 ANSYS Workbench Files View for the Project After Duplicating the System and Changing the Geometry

Note the addition of the geometry, mesh, and ANSYS FLUENT settings files now associated with the new, duplicated system.

1.4.9. Step 8: Updating the Mesh in the ANSYS Meshing Application The modified geometry now requires a new computational mesh. The mesh settings for the duplicated system are retained in the duplicated system. In this step, you will update the mesh based on the mesh settings from the original system, then review the list of files generated by ANSYS Workbench. In the Project Schematic, right-click the ANSYS 19.5 Download Archives cell of the new-elbow system (cell B3) and select Update from the context menu. This will update the mesh for the new geometry based on the mesh settings you specified earlier in the ANSYS Meshing application without having to open the editor to regenerate the mesh.

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Setup and Solution

Figure 1.33 Updating the Mesh for the Changed Geometry

It will take a few moments to update the mesh, ANSYS 19.5 Download Archives. Once the update is complete, the state of the Mesh cell is changed ANSYS 19.5 Download Archives up-to-date, symbolized by a green check mark. For illustrative purposes of the tutorial, the new geometry and the new mesh are displayed below.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Figure 1.34 The Updated Geometry and Mesh in the ANSYS Meshing Application

Inspecting the files generated by ANSYS Workbench reveals the updated mesh file for the duplicated system. View → Files

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Setup and Solution

Figure 1.35 ANSYS Workbench Files View for the Project After Updating the Mesh for the Altered Geometry

1.4.10. Step 9: Calculating a New Solution in ANSYS FLUENT Now that there is an updated computational ANSYS 19.5 Download Archives for the modified geometry in the duplicated system, ANSYS 19.5 Download Archives, a ANSYS 19.5 Download Archives solution needs to be generated using ANSYS FLUENT. In this step, you will revisit the settings within ANSYS FLUENT, calculate another solution, view the new results, then review the list of files generated by ANSYS Workbench. 1.

Open ANSYS FLUENT. In the Project Schematic, right-click the Setup cell of the new-elbow system (cell B4) and select Edit. ANSYS 19.5 Download Archives the context menu. Since the mesh has been changed, you are prompted as to whether you want to load the new mesh into ANSYS FLUENT or not. Select Yes to continue, and click OK when FLUENT Launcher is displayed in order to open ANSYS FLUENT.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Figure 1.36 ANSYS Workbench Prompt When the Upstream Mesh Has Changed

2.

Make sure that the unit of length is set to inches. General → Units.

3.

Check the mesh (optional). General → Check

4.

Revisit the boundary conditions for the small inlet. Boundary Conditions →

velocity-inlet-small → Edit.

Here, you need to set the hydraulic diameter to 1.5 in based on the new dimensions of the small inlet. 5.

Reinitialize the solution. Solution Initialization Keep the default Hybrid Initialization and click Initialize.

6.

Recalculate the solution. Run Calculation Keep the Number of Iterations set to 300 and click Calculate.

7.

Close ANSYS FLUENT.

8.

Revisit the results of the calculations in CFD-Post. Double-click the Results cell of the new-elbow fluid flow system to re-open CFD-Post where you can review the results of the new solution.

9.

Close CFD-Post.

10. Save the elbow-workbench project in ANSYS Workbench, ANSYS 19.5 Download Archives. 11. View the list of files generated by ANSYS Workbench. View → Files

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Setup and Solution

Figure 1.37 ANSYS Workbench Files View for the Project After Viewing the New Results in CFD-Post

Note the addition of the solution and state files now associated with new duplicated system.

1.4.11, ANSYS 19.5 Download Archives. Step 10: Comparing the Results of Both Systems in CFD-Post In this step, you will create a new Results system in ANSYS Workbench, use that system to compare the solutions from each of the two FLUENT-based fluid flow analysis systems in CFD-Post at the same time, then review the list of files generated by ANSYS Workbench. 1.

Create a Results system. In ANSYS Workbench, drag a Results system from the Component Systems section of the Toolbox and drop it into the Project Schematic, next to the fluid flow systems.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow

Figure 1.38 The New Results System in ANSYS 19.5 Download Archives Project Schematic

2.

Add the solutions of each ANSYS 19.5 Download Archives the systems to the Results system, ANSYS 19.5 Download Archives. a.

Select the Solution cell in the first Fluid Flow analysis system (cell A5) ANSYS 19.5 Download Archives drag it over the Results cell in the Results system (cell C2). This creates a transfer data connection between the two systems.

Figure 1.39 Connecting the First Fluid Flow System to the New Results System

b.

Select the Solution cell in the second Fluid Flow analysis system (cell B5) and drag it over the Results cell in the Results system (cell C2). This creates a transfer data connection between the two systems.

Figure 1.40 Connecting the Second Fluid Flow System to the New Results System

3.

70

Open CFD-Post to compare the results of the two fluid flow systems.

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Setup and Solution Now that the two fluid flow systems are connected to the Results system, double-click the Results cell in the Results system (cell C2) to open CFD-Post. Within CFD-Post, both geometries are displayed side by side.

Figure 1.41 CFD-Post with Both Fluid Flow Systems Displayed

a.

Re-orient the display. In each view, click the blue Z axis on the axis triad in the bottom right hand corner of the graphics display to orient the display so that the view is of the front of the elbow geometry.

Important Alternatively, you can select the synchronization tool ( ) in the 3D Viewer Toolbar to synchronize the views, so that when you re-orient one view, the other view is automatically updated. b.

Display filled contours of velocity magnitude on the symmetry plane. i.

Insert a contour object. Insert → Contour

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow This displays the Insert Contour dialog box. ii.

Keep the default name of the contour (Contour 1) and click OK to close the dialog box. This displays the Details of Contour 1 view below the Outline view in CFD-Post. This view contains all of the settings for a contour object.

iii.

In the Geometry tab, select fluid in the Domains list.

iv.

Select symmetry in the Locations list.

v.

Select Velocity in ANSYS 19.5 Download Archives Variable list.

vi.

Click Apply. The velocity contours are displayed in each view.

Figure 1.42 CFD-Post Displaying Velocity Contours for Both Geometries

c.

72

Display filled contours of temperature on the symmetry plane. i.

Deselect the Contour 1 object under User Locations and Plots in CFD-Post to hide the first contour display.

ii.

Insert another contour object. Release 14.0 - © SAS IP, Inc. Ad-Aware Antivirus Pro 12.6 Crack with Activation Key Free Download Latest 2021 rights reserved. - Contains proprietary and confidential information of ANSYS, Inc. and its Tomabo MP4 Downloader Pro 4.3.6 With Crack Download [Latest] 2021 and affiliates.

Setup and Solution Insert → Contour This displays the Insert Contour dialog box. iii.

Keep the default name of the contour (Contour 2) and click OK to close the dialog box. This displays the Details of Contour 2 view below the Outline view in CFD-Post.

iv.

In the Geometry tab, select fluid in the Domains list.

v.

Select symmetry in the Locations list.

vi.

Select Temperature in the Variable list.

vii. Click Apply. The temperature contours are displayed in each view.

Figure 1.43 CFD-Post Displaying Temperature Contours for Both Geometries

4.

Close the CFD-Post application.

5.

Save the elbow-workbench project in ANSYS Workbench.

6.

View the list of files associated with your project using the Files view. Release 14.0 - © SAS IP, ANSYS 19.5 Download Archives, Inc. All rights reserved, ANSYS 19.5 Download Archives. - Contains proprietary and confidential information of ANSYS, Inc. and its subsidiaries and affiliates.

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Chapter 1: Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow View → Files

Figure 1.44 ANSYS Workbench Files View for the Project After Viewing the Combined Results in CFD-Post

Note the addition of the Results system and its corresponding files.

1.4.12. Step 11: Summary In this tutorial, portions of ANSYS Workbench were used to ANSYS 19.5 Download Archives the fluid flow through two slightly different geometries. ANSYS DesignModeler was used to create a mixing elbow geometry, ANSYS Meshing was used to create a computational mesh, ANSYS FLUENT was used to calculate the fluid flow throughout the geometry using the computational mesh, and CFD-Post was used to analyze the results. In addition, the geometry was altered, a new mesh was generated, and a new solution was calculated. 74

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Setup and Solution Finally, ANSYS Workbench was set up so that CFD-Post could directly compare the results of both calculations at the same time.

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Chapter 2: Parametric Analysis in ANSYS Workbench Using ANSYS FLUENT This tutorial is divided into the following sections: 2.1. Introduction 2.2. Prerequisites 2.3. Problem Description 2.4. Setup and Solution

2.1. Introduction This tutorial illustrates using ANSYS Workbench to set up and solve a three-dimensional turbulent fluid flow and heat transfer problem in an automotive heating, ventilation, and air conditioning (HVAC) duct system using an ANSYS FLUENT fluid flow system. ANSYS Workbench uses parameters and design points to allow you to run optimization and what-if scenarios. You can define both input and output parameters in ANSYS FLUENT that can be used in your ANSYS Workbench project. You can also define parameters in other applications including ANSYS DesignModeler and ANSYS CFD-Post. Once you have defined parameters for your system, a Parameters cell is added to the system and the Parameter Set bus bar is added to your project. This tutorial is designed to introduce you to the parametric analysis utility available in ANSYS Workbench. The tutorial starts with a Fluid Flow (FLUENT) ANSYS 19.5 Download Archives system with pre-defined geometry and mesh components. Within this tutorial, you will redefine the geometry parameters in ANSYS DesignModeler by adding constraints to the input parameters. You will use ANSYS FLUENT to set up and solve the CFD problem. While defining the problem set-up, you will also learn to define input and output parameters in ANSYS FLUENT. The tutorial will also provide information on how to create output parameters in ANSYS CFD-Post. This tutorial demonstrates how to do the following: •

Add constraints to the ANSYS DesignModeler input parameters.



Create an ANSYS FLUENT fluid flow analysis system in ANSYS Workbench.



Set up the CFD simulation in ANSYS FLUENT, ANSYS 19.5 Download Archives, which includes: –

Setting material properties and boundary conditions for a turbulent forced convection problem.



Defining input and output ANSYS 19.5 Download Archives in FLUENT



Define output parameters in CFD-Post



Create additional design points in ANSYS Workbench.



Run multiple CFD simulations by updating the design points.



Analyze the results of each design point project in ANSYS CFD-Post and ANSYS Workbench.

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Chapter 2: Parametric Analysis in ANSYS Workbench Using ANSYS FLUENT

2.2. Prerequisites This tutorial assumes that you are already familiar with the ANSYS Workbench interface ANSYS 19.5 Download Archives its project workflow (e.g., ANSYS DesignModeler, ANSYS Meshing, ANSYS FLUENT, and ANSYS CFD-Post). This tutorial also assumes that you have completed Introduction to Using ANSYS FLUENT in ANSYS Workbench: Fluid Flow and Heat Transfer in a Mixing Elbow (p. 1), and that you are familiar with the ANSYS FLUENT graphical user interface. Some steps in the setup and solution procedure will not be shown explicitly.

2.3. Problem Description In the past, evaluation of vehicle air conditioning systems was performed using prototypes and testing their performance in test labs. However, the design process of modern vehicle air conditioning (AC) systems improved with the introduction of Computer Aided Design (CAD), Computer Aided Engineering (CAE) and Computer Aided Manufacturing (CAM). The AC system specification will include minimum performance requirements, temperatures, control zones, flow rates etc. Performance testing using CFD may include fluid velocity (air flow), pressure values, and temperature distribution. Using CFD enables the analysis of fluid through very complex geometry and boundary conditions. As part of the analysis, a designer can change the geometry of the system or the boundary conditions such as the inlet velocity, flow rate, etc., and view the effect on fluid flow patterns. This tutorial illustrates the AC design process on a representative automotive HVAC system consisting of both an evaporator for cooling and a heat exchanger for heating requirements.

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Problem Description

Figure 2.1 Automotive HVAC System

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Chapter 2: Parametric Analysis in ANSYS Workbench Using ANSYS FLUENT

Figure 2.2 HVAC System Valve Location Details

Figure 2.1 (p. 79) shows a representative automotive HVAC system. In this tutorial, the system has three valves (as shown in Figure 2.2 (p. 80)), which control the flow in the HVAC system. The three valves control: •

Flow over the heat exchanger coils



Flow towards the duct controlling the flow through the floor vents



Flow towards the front vents or towards the windshield

Air enters the HVAC system at 310 ANSYS 19.5 Download Archives with a velocity of 0.5 m/sec from the air inlet and passes to the evaporator and the heat exchanger depending upon the state of the valve controlling flow to the heat exchanger, ANSYS 19.5 Download Archives. Depending upon the cooling and heating requirements, either the evaporator or the heat exchanger would ANSYS 19.5 Download Archives operational, but not both at the same time. The position of the other two valves controls the flow towards the front panel, the windshield, or towards the floor ducts.

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Problem Description The motion of the valves is constrained, ANSYS 19.5 Download Archives. The valve controlling flow over the heat exchanger varies between 25° and 90°. The valve controlling the floor flow varies between 20° and 60°. The valve controlling flow towards front panel or windshield varies between 15° and 175°, ANSYS 19.5 Download Archives. The evaporator load is about 200 W in the cooling cycle. The heat exchanger load is about 150 W.

Figure 2.3 Location of Evaporator Coils and Heat Exchanger

This tutorial illustrates the easiest way to analyze the effects of the above parameters on the flow pattern/distribution and the outlet temperature of air (entering the passenger cabin). Using the parametric analysis capability in ANSYS Workbench, a designer can check the performance of the system at various design points.

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Chapter ANSYS 19.5 Download Archives Parametric Analysis in ANSYS Workbench Using ANSYS FLUENT

Figure 2.4 Flow Pattern for the Cooling Cycle

2.4. Setup and Solution The following sections describe the setup and solution steps for this tutorial: 2.4.1. Preparation 2.4.2. Step 1: Adding Constraints to ANSYS DesignModeler Parameters in ANSYS Workbench 2.4.3. Step 2: Setting Up the CFD Simulation in ANSYS FLUENT 2.4.4. Step 3: Defining Input and Output Parameters in ANSYS FLUENT and Running the Simulation 2.4.5. Step 4: Postprocessing in ANSYS CFD-Post 2.4.6. Step 5: Creating Additional Design Points in ANSYS Workbench 2.4.7. Step 6: Postprocessing the New Design Points in CFD-Post 2.4.8. Step 7: Summary

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Setup and Solution

2.4.1. Preparation To prepare for running this tutorial, set up a working folder on the computer you will be using. You can also download some ANSYS 19.5 Download Archives from the ANSYS Customer Portal web page, which you can reach via the Customer Portal link on the ANSYS Website at http://www.ansys.com. 1.

Obtain the Tutorial Inputs Archive from the ANSYS Customer Portal. a.

On the Customer Portal Home page, click Download Software. This takes you to the ANSYS Download Center Wizard.

b.

Click Next Step.

c.

Choose a Download Type. Select the Current Release and Updates radio button.

d.

Click Next Step.

e.

Choose the Hardware Platform you are using.

f.

Click Next Step.

g.

At the bottom of the page, under the heading ANSYS Documentation and Examples, check the box next to ANSYS Fluid Dynamics Tutorial Inputs.

h.

Click Next Step.

i.

Click the ANSYS Fluid Dynamics ANSYS 19.5 Download Archives Inputs link to download the ANSYS_Fluid_Dynamics_Tutorial_Inputs.zip file.

j.

Save and extract the .zip file to any Maxon CINEMA 4D 2022 Studio Crack Free Full Latest Version location. Tutorial mesh and solution files for each of the ANSYS Fluid Dynamics products are located in v140\Tutorial_Inputs\Fluid_Dynamics\.

2.

Copy the workbench-parameter-tutorial.zip file from the FLUENT sub-folder of the ANSYS_Fluid_Dynamics_Tutorial_Inputs.zip archive.

3.

Unzip workbench-parameter-tutorial.zip to your working folder. The .zip file contains a folder (workbench-parameters-tutorial) that in turn contains an ANSYS Workbench project file (fluent-workbench-param.wbpj) and a corresponding project folder (fluent-workbench-param_files) that contains supporting files for the project. This project is the starting point for this tutorial. There is an additional folder called WinCatalog 2021 v2.9.107 Crack + Serial Key Free Download that contains the final version of this ANSYS Workbench project with ANSYS FLUENT and ANSYS CFD-Post settings and all design points already defined (all that is required is to update the design points in the project to generate corresponding solutions).

Note ANSYS FLUENT tutorials are prepared using ANSYS FLUENT on a Windows system. The screen shots and graphic images in the tutorials may be slightly different than the appearance on your system, depending on the operating system or graphics card.

2.4.2. Step 1: Adding Constraints to ANSYS DesignModeler Parameters in ANSYS Workbench In this step, you will start ANSYS Workbench, ANSYS 19.5 Download Archives, open the project file, review existing parameters, create new parameters, and add constraints to existing ANSYS DesignModeler parameters.

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Chapter 2: Parametric Analysis in ANSYS Workbench Using ANSYS FLUENT 1.

Start ANSYS Workbench by clicking the Windows Start menu, then selecting the Workbench option in the ANSYS14.0 program group. Start → All Programs → ANSYS 14.0 → Workbench 14.0 This displays the ANSYS Workbench application window, which has the Toolbox on the left and the Project Schematic to its right. Various supported applications are listed in the Toolbox, and the components of the analysis system are displayed in the Project Schematic.

Note When you first start ANSYS Workbench, the Getting Started pop-up window is displayed, offering assistance through the online help for using the application. You can keep the window open, or close it by clicking the red ’X’ icon in the upper right-hand corner. If you need to access the online help at any time, use the Help menu, or press the F1 key. 2.

Open the project file for this tutorial. File → Open The project (fluent-workbench-param.wbpj) already has a FLUENT-based fluid flow analysis system that includes the geometry and mesh, as well as some predefined parameters. You will first examine and edit parameters within Workbench, then later proceed to define the fluid flow model in ANSYS FLUENT.

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Setup and Solution

Figure 2.5 The Project Loaded into ANSYS Workbench

3.

Review the parameters that have already been defined in ANSYS DesignModeler. a.

Click the Parameter Set bus bar in the ANSYS Workbench Project Schematic.

b.

Select the Outline option under the View menu. View → Outline This displays the Outline of All Parameters view in ANSYS Workbench, where you can view an ANSYS 19.5 Download Archives of all parameters associated with the current project.

c.

Select the Properties option under the View menu. View → Properties This displays the Properties view in ANSYS Workbench, where properties of objects selected in the Project Schematic are displayed.

d.

Select the Files option under the View menu (optional). View → Files This displays the Files view in ANSYS Workbench, where you can view the files associated with the current project.

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Chapter 2: Parametric Analysis in ANSYS Workbench Using ANSYS FLUENT

Figure 2.6 The Project Loaded into ANSYS Workbench Displaying Parameter Outline, Properties, and Files View

Note the types of files that have been created for this project. Also note the states of the cells for the Fluid Flow (FLUENT) analysis system. Since the geometry and mesh have already been defined, the status of the Geometry and Mesh cells is Up-to-Date ( ). Also, since the ANSYS FLUENT setup is not complete, the Setup cell's state is Refresh Required ( ), and since the simulation has yet to be performed, with no corresponding results, the state for the Solution and Results cells is Unfulfilled ( e.

86

). For more information about cell states, see Understanding Cell States.

In the Outline of All Parameters view, ANSYS 19.5 Download Archives, review the parameters that have already been defined in ANSYS DesignModeler (see Figure 2.7 (p. 87)).

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Setup and Solution

Figure 2.7 Parameters Defined in ANSYS DesignModeler

The parameter hcpos represents the valve position that controls the flow over the heat exchanger. When the valve is at an angle of 25°, it allows the flow to pass over the heat exchanger. When the angle is 90°, it completely blocks the flow towards the heat exchanger. Any value in between allows some flow to pass over the heat exchanger giving a mixed flow condition. The parameter ftpos represents the valve position that controls flow towards the floor duct. When the valve is at an angle of 20°, it blocks the flow towards the floor duct and when the valve angle is 60°, it unblocks the flow. The parameter wsfpos represents the valve position that controls flow towards the windshield and the front panel. When the valve is at an angle of 15°, it allows the entire flow to go towards the windshield. When the angle is 90°, it completely blocks the flow towards windshield as well as the front panel. When the angle is 175°, it allows the flow to go towards the windshield and the front panel. 4.

Create three new input parameters. In the row that contains New input parameter, ANSYS 19.5 Download Archives, click the parameter table cell under the Parameter Name column (the cell with New name) to create a new named input parameter. Create three new parameters named input_hcpos, input_ftpos, and input_wsfpos. Please note the ID of the parameter that appears in column A of the ANSYS 19.5 Download Archives. For the new input parameters, the parameter IDs would be P4, P5, and P6, respectively. In the Values column, enter values for each new parameter of 15, 25, and 90, respectively.

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EnSight

Last Verified : 2020-12-11

NOTE EnSight not currently available on CORAL systems.

Overview

EnSight is a product of ANSYS. (The software was previously developed by Computational Engineering International (CEI), which was acquired by ANSYS in 2017.) EnSight provides a set of tools to help with many types of engineering analysis, visualization, and communication. With EnSight you can create contours, isosurfaces, particle traces, vector arrows, elevated surfaces, and profile plots. Animation is also supported.

Like many modern scientific visualization applications, EnSight can utilize a distributed computing model, consisting of a server running on the remote machine where ANSYS 19.5 Download Archives data sets reside and a client running on the desktop, where all interface ANSYS 19.5 Download Archives and graphics rendering is done using the desktop machine's built-in graphics hardware.

In addition to EnSight, several other tools are included in the EnSight distribution.

Environment

Machines and Versions

See LC visualization software page.

Location

Due to numerous ANSYS 19.5 Download Archives within the package, EnSight must be accessed via modules. Multiple versions may be available. Type module avail ensight to see the available options. You can specify a particular version in the module command, e.g. module load ensight/19.5

The actual installation directories are in /usr/tce/packages/ensight

Settings

The module load ensight command will setup your PATH and any other needed environment variables.

Usage

You must use the command module load ensight before running ensight or any of the other tools included in the complete EnSight package.

Additional Tools

Additional tools are included in the EnSight distribution. A summary of some common ones follows:

Tool

Purpose

ceistartA tool to automate EnSight launching from your desktop connecting to the clusters.
ceishellA tool to ease Able2Extract Professional 16.0.1.0 Crack Full Version Download launching on the clusters.
cpythonPython wrapped in EnSight goodness; useful for executing python code that loads EnSight's libraries.
ens_checkerDebugging tool to check a case file for formatting errors and report the location of the error.
enveExcellent animation creation tool. Creates movies from series of images.
envideoA simple-to-use, cross-platform video player.
evo_infoReport the details of a .evo file.
slimd8_statusReports the current license status for EnSight.
titlemakerA tool for generating simple .evo text files

Help

Manuals and documentation are available within the EnSight application from the Help menu.

Type ensight -help for a listing of command-line options.

Video tutorials and more are available in the ANSYS Resource Library.

Help is available from the LC Hotline: lc-hotline@llnl.gov, (925) 422-4531

Download

If you have an account on the LC machines, the EnSight software may be installed on a local machine and LC's EnSight license can be used. This would be useful if you want to run in distributed mode, or if your local machine has enough memory and speed to visualize your data in stand-alone mode.

To install and use the EnSight software on your local workstation:

  1. Download and run the appropriate EnSight installer.
    • Downloads are available via the ANSYS Customer Portal at support.ansys.com, which requires a registered customer login.
    • Alternatively, LC users can download the installer from the CZ Confluence page. If you do not see the installer you are looking for, please contact lc-graphics@llnl.gov.
  2. Copy the slim8.key file from /usr/global/tools/licservers/ensight/license8/slim8.key on an LC system into the $CEI_HOME/license8 directory on your desktop (where $CEI_HOME is the install location for EnSight).

Offsite Users

If your desktop is not in the LLNL network, you will need to use a VPN in order to connect to the LC license server.

Links

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ANSYS 19.5 Download Archives

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