ANSYS BELGIUM TRAINING GUIDE

Transcription

1 ANSYS BELGIUM TRAINING GUIDE

2 ANSYS BELGIUM TRAINING GUIDE Welcome to ANSYS Belgium s training guide. In addition to the quality of the code, it is the training and support services we provide that have made ANSYS the world leader it is today. ANSYS BELGIUM TRAINING GUIDE ANSYS Belgium SA Avenue Pasteur, Wavre Belgium Tel. : +32 (0) Fax: +32 (0) training-belgium@ansys.com Website: ANSYS, Inc. All Rights Reserved The ANSYS Workbench platform is the framework upon which the industry s broadest and deepest suite of advanced engineering simulation technology is built. An innovative project schematic view ties together the entire simulation process, guiding the user through even more complex multiphysics analyses with drag-and- drop simplicity. With bi-directional CAD connectivity, powerful highly-automated meshing, a project-level update mechanism, pervasive parameter management and integrated optimization tools, the ANSYS Workbench platform delivers unprecedented productivity, enabling simulation driven product development. 2 3

3 Table of contents CFD worklow 6 ANSYS DesignModeler 7 ANSYS Meshing Platform 8 ANSYS FLUENT Solver 9 ANSYS CFX Solver 10 ANSYS POLYFLOW Solver 11 ANSYS Mechanical Solver 12 Turbulence 13 Multiphase 14 User defined functions 15 GAMBIT 16 ANSYS Airpak 17 Blow molding 18 Extrusion 19 Mixing 20 Viscoelastic 21 Additional courses 22 Registration and general terms 23 Access to ANSYS Belgium 24 Accommodations 26 Contacts

4 CFD worklow I Regular training - 1 day ANSYS DesignModeler I Regular training - 1 day The course assumes you have no prior experience of working with any CFD package, although a background in Problem Identification identification 1. Define goals 2. Identify domain The course assumes you have no prior experience of working with any CFD package, although a background in Learning objectives The ANSYS DesignModeler training course is for users who want to create and modify geometry in preparation for engineering /physics is assumed. engineering/physics is assumed. analysis in ANSYS or ANSYS Workbench. Trainees who attend this course will learn Learning Objectives Pre-Processing Pre-processing how to create and modify geometry in This course introduces the underlying theory behind the CFD codes. This course should not be seen as a replacement to the introductory course but should complement it. 3. Geometry 4. Mesh 5. Physics 6. Solver Settings preparation for analysis how to navigate within the Graphical User Interface how to generate 2D sketches and convert them into 2D or 3D models how to modify 2D and 3D geometry Intro to CFD Mathematical Equations of CFD Solve 7. Compute solution how to import existing CAD geometry how to model assemblies how to utilize parameters. Overview of CFD Solution Methodologies Flow volume automatically extracted from a manifold Each course chapter is followed by hands-on workshops and exercises. Discretization Solution Methods CFD Modelling of Turbulent Flows Post Processing processing 8. Examine results 9. Update model 6 7

5 ANSYS Meshing Platform I Regular training - 1 day ANSYS FLUENT Solver I Regular training - 2 days In order to use ANSYS Meshing Platform, it is necessary to have a geometric model that has been created by another Learning objectives By the end of this course you should be able to: work with ANSYS Meshing Platform, A technical education and background are recommended but an engineering degree is not required. Recommended follow-on courses (depending upon the trainee s interests and applications) application. In most cases trainees will have attended the DesignModeler course on with full understanding of its GUI understand the different meshing Learning objectives Automotive HVAC and Underhood, Combustion, Dynamic Mesh, Heat Transfer, the previous day and will therefore have methods available for 2D and 3D For a given software you should be able to: Multiphase, Positive Displacement Pumps, these skills. However trainees who do not geometries Select appropriate physical models Spray and Particle Modeling, Turbulence, wish to learn DesignModeler should create Tetrahedral Meshes Define material properties UDFs make sure they are able to operate another create Hexahedral Meshes Prescribe boundary and operating CAD tool so that they can create/modify create inflation (boundary) layer meshes conditions their model prior to meshing. near to walls Set solver controls apply advanced controls so as to refine Set up solution convergence monitors and coarsen the mesh in different Provide an initial solution regions of the domain Display and examine results. examine the quality of the mesh. Practical workshops All topics are covered using a combination A comprehensive range of hands-on of lectures and hands-on sessions. Pressure contours workshops are provided in which trainees will be able to use the ANSYS Meshing Platform themselves, applying the skills learnt in the previous lecture. Example of all-hex meshing in the automotive industry 8 Hex meshing of a cell phone 9

6 ANSYS CFX Solver I Regular training - 2 days ANSYS POLYFLOW Solver I Regular training - 2 days The course assumes you have prior experience of working with a mesh generation software. Recommended follow-on courses (depending upon the trainee s interests and applications) The course assumes you have prior experience of working with a mesh generation software. Recommended follow-on courses (depending upon the trainee s interests and applications) Learning objectives Combustion and Radiation, Customization (of CFX Pre, Solver and Post), Fluid- Blow Molding, Extrusion, Mixing, Viscoelastic Processing: Structure Interaction, Multiphase, Turbo Overview of the software; machinery Organization of the modules; For a given software you should be able to: Introduction to constitutive equations; select appropriate physical models Polydata: define material properties --Tasks and sub-tasks prescribe boundary and operating --Domain conditions --Material parameters set solver controls --Boundary conditions set up solution convergence monitors --Remeshing. provide an initial solution Listing file; display and examine results. Evolution method for the treatment of the non-linearity Time-dependent flow All topics are covered using a combination Input of experimental rheology data in of lectures and hands-on sessions. Particle tracking in a engine Polymat Introduction to CFD-Post All topics are covered using a combination of lectures and hands-on sessions. Thickness distribution in a thermoformed dashboard 10 11

7 ANSYS Mechanical Solver I Regular training - 2 days Turbulence I Advanced ANSYS FLUENT - 1 day to build a mechanical simulation model, A technical education and background are analyze it and interpret the results. This course assumes that the attendees Lectures: recommended but an engineering degree Course Topics Include: Introduction, have some understanding of fluid dynamics, Overview of Turbulence Model (Part 1) is not required. Mechanical Basics, General Preprocessing, heat transfer, turbulence and experience Overview of Turbulence Model (Part 2) Overview ANSYS Mechanical provides solutions Static Structural Analysis, Vibration Analysis, Thermal Analysis, Linear Buckling Analysis, Results Post processing, CAD & Parameters. with ANSYS FLUENT. Learning objectives Turbulence Modeling Options in ANSYS FLUENT Modeling Turbulent Flow With ANSYS for many types of analyses including Each course chapter is followed by hands- Reynolds Averaged Navier-Stokes FLUENT structural, thermal, modal, linear buckling on workshops and exercises. (RANS) modeling approach Turbulent Flow Examples. and shape optimization studies. ANSYS Mechanical is an intuitive mechanical analysis tool that allows geometry to be imported from a number of different CAD systems. It can be used to verify Recommended follow-on courses (depending upon the trainee s interests and applications) Low Reynolds number turbulence models in ANSYS FLUENT Large Eddy Simulation (LES) turbulence model in ANSYS FLUENT Near wall treatment options within Hands-On: Wavy Channel Compact Heat Exchanger. product performance and integrity from Heat Transfer, Structural Nonlinearies, ANSYS FLUENT the concept phase through the various Dynamics, Rigid Body Flexible Body Modeling turbulent flow problems with product design and development Dynamics, Using Command Objects ANSYS FLUENT phases. The use of ANSYS Mechanical Turbulent flow examples. accelerates product development by providing rapid feedback on multiple design scenarios, which reduces the need for multiple prototypes and product testing iterations. Course description This training course teaches trainees how to effectively use ANSYS Mechanical Linear dynamic analysis of a semi-submersible Vortex structures generated by aircraft landing gear 12 13

8 Multiphase I Advanced ANSYS FLUENT - 1 day User defined functions I Advanced ANSYS FLUENT - 1 day The course assumes you have previous experience of using ANSYS FLUENT and a general appreciation of multiphase physics. Learning objectives By the end of this course you should be able to: differentiate and identify adequacies of several multiphase models available in ANSYS FLUENT identify and setup the most suitable multiphase models for given applications. Lectures: Introduction and Definitions The Mixture Model in ANSYS FLUENT The Eulerian Model in ANSYS FLUENT The VOF Model in ANSYS FLUENT UDF s for Multiphase Flows The course assumes you have previous ANSYS FLUENT experience and a basic knowledge of C-programming. Learning Objectives By the end of this course you should be able to: create your own UDFs compile UDFs execute UDFs. The topic is covered using a combination of lectures and hands-on sessions. Lectures: UDF Basics and Philosophy Compiled and Interpreted UDFs Accessing Variables from UDFs Use of UDFs in a number of applications, such as setting boundary conditions and source terms etc. Workshop: Position Dependent Porous Media; Sinusoidal Wall Temperature Variation Hands-on: Heat and Mass Transfer with The Mixture Model Modeling Uniform Fluidization in a Fluidized Bed Horizontal Film Boiling Fluidized bed 14 15

9 GAMBIT I Advanced - 2 days ANSYS Airpak I Advanced - 2 day Systematically go through the GUI and The course assumes you have no prior point out all important features and The course assumes you have no prior All topics are covered using a combination experience of working with any CFD capabilities experience of working with any of our of lectures and hands-on sessions. package, although a background in Create 2D and 3D geometry through software. engineering/physics is assumed. Overview all available sources and also discuss different strategies within geometry creation and decomposition Learning objectives Preprocessing - By the end of this course Lectures and hands-on: Introduction & Overview, Building Models with ANSYS Airpak, Meshing, Physical GAMBIT preprocessor provides a concise Mesh a variety of problems and discuss you should be able to: Modeling and Solving the Problem, and powerful set of solid modelling-based the relevant use of different meshing create 3d geometries using ANSYS Post Processing, Transient Problems, geometry tools. Top-down geometry algorithms for different geometries Airpak Miscellaneous Topics construction using 3D primitives allows mesh 3d geometries using the you to create geometries fast. structured and unstructured grid Course objectives approach examine the quality of the mesh. The aim of this two-day course is to provide enough training for the user to Processing - For a given problem you directly start building and meshing his should be able to: own models using GAMBIT. select appropriate physical models define material properties prescribe boundary and operating Hex mesh of a catalyst conditions set solver controls set up solution convergence monitors; provide an initial solution. Post processing display and examine results. Office ventilation 16 17

10 Blow molding I Advanced ANSYS POLYFLOW - 1 day Extrusion I Advanced ANSYS POLYFLOW - 1 day various capabilities of these software numerical tools: initial conditions, direction The course assumes you have previous developments. During the exercises, The course assumes you have previous of motion, corner strategy (for 3-D free experience of using ANSYS POLYFLOW. important features such as parison experience of using ANSYS POLYFLOW. surfaces), fixed and moving domains, re- Course objectives extrusion, pinch-off, inflation and cooling may be investigated. Numerical results will Course objectives meshing algorithms, direct and inverse extrusion problems. The purpose of this session is to introduce be analysed and commented on. This course is a comprehensive ANSYS POLYFLOW blow molding introduction to the numerical simulation We show how to define a simple problem module. Models and numerical tools of extrusion and die design using ANSYS at the outset and how to handle non- will be presented. Several flow models POLYFLOW. It is essentially devoted to 2-D linearities through appropriate evolution are available: 2-D and 3-D models with and 3-D free surface flow problems of non- parameters. Several 2-D and 3-D calculation through the thickness and thin Newtonian inelastic fluids. applications of technical importance are shell elements as well. Their advantages discussed while sample problems are and limitations will be discussed. The most We elaborate on the concept of free solved by the trainees at a workstation. important numerical tools will also be surface in extrusion and the associated shown: (i) the remeshing techniques with their usage and (ii) the contact algorithm with its geometric consequences. The theoretical presentation is followed by suggested exercises solved on the computer, and which show the Parison programming and extrusion blow molding using shell elements Extrusion of a viscoelastic food material 18 19

11 Mixing I Advanced ANSYS POLYFLOW - 1 day Viscoelastic I Advanced ANSYS POLYFLOW - 1 day process (laminar mixing, dispersion, and swelling at die exit. Next, modeling The course assumes you have previous segregation scale). However, as shown in The course assumes you have previous tools are introduced: Newtonian and experience of using ANSYS POLYFLOW. this session, the interest of this module experience of using ANSYS POLYFLOW. generalized Newtonian fluid models as Course objectives (a true statistical toolbox) is much larger: determination of the RTD (residence time Course objectives well as viscoelastic models. The properties of the several models are discussed. The In this training course, we will present distribution), the thermal degradation of a This course is a comprehensive introduction numerical treatment is also introduced. the capabilities of ANSYS POLYFLOW polymer, among others. to the modeling and numerical simulation with regards to solving complex flows of viscoelastic flows with the ANSYS Finally, questions such as selection of involving highly non-linear rheological After a brief theoretical introduction of POLYFLOW software. a model and definition of a flow case and thermal behaviors and how you the mathematical tools, three tutorials are presented, as well as a few typical can take advantage of those results to are analyzed in details to give a complete We introduce and comment on some applications. Exercises are solved by the express them into an industrial and usable overview of these Polystat module well-known viscoelastic phenomena, attendees on a workstation. language. Historically, this Polystat capabilities: comparison of two mixers, such as the Weissenberg effect or the module was developed to provide a analysis of a glass furnac and post-processing quantitative evaluation of a given mixing of an extrusion process simulation. Mixing screw Extrusion of a viscoelastic food material 20 21

12 Additional courses Registration and general terms The list below shows the additional courses ANSYS POLYFLOW : Blow Molding, Registration Withdrawal available for our products. However if you Extrusion, Mixing, Viscoelastic Send an to training-belgium@ansys. For a full refund, a written notice of cannot see what you are looking for, please com no later than two weeks prior the withdrawal must be received two weeks contact us since the training need can ANSYS Mechanical : Advanced course. Due to limitations in the number prior to the beginning of the course. If a often be met using Focus Days. Structural Nonlinearities, Advanced Contact, of participants, early registration is advised. written notice of withdrawal is received Fatigue, Fracture Mechanics, Heat Transfer Priority will be given on the basis of the one week prior to the event, half of the Meshing tools: TGrid, ANSYS ICEM date of receipt. course fee will be refunded. The entire CFD Tetra/Prism, ANSYS ICEM CFD Hex ANSYS ED and ANSYS AUTODYN : ANSYS ED Material Modeling for Ductile Schedule course fee will be charged for later withdrawals. However, substitutions may ANSYS FLUENT : Automotive HVAC and Explosive Materials, ANSYS ED Courses start at 9:00 a.m. and end at be made at any time. and Underhood, Combustion, Dynamic Mesh, Heat Transfer, Multiphase, Positive Material Modeling for Brittle/Geological and Composite Materials, ANSYS about 5:30 p.m. Upon registration, a list of hotels along with an access map will Course fee Displacement Pumps, Spray and Particle AUTODYN User Subroutines be sent to the participants. Upon request, The course fee is per person. It includes Modeling, Turbulence, UDFs ANSYS Belgium can organize personalized attendance, class notes, lunch and day- ANSYS ANSOFT: Ansoft Designer, HFSS courses in Belgium or on-site time refreshments. Hotel accommodations ANSYS CFX : Combustion and Radiation, Customization (of CFX Pre, Solver Optimization: ANSYS DesignXplorer Accommodations are not included. There is no special fee for academic institutions or trainees. and Post), Fluid-Structure Interaction, Multiphase, Turbo machinery Upon registration, a list of hotels along with an access map will be sent to the Special courses participant. Please make your own hotel On-site courses can be organized outside reservations mentioning your participation the regular schedule of courses and take at the seminar. place at the client s site. The availability of a conference room, projectors, computers and other materials are the client s responsibility. Upon request, Fluent Benelux can organize personalized courses in Belgium or on-site. Please contact us for details

13 Access to ANSYS Belgium You find hereafter the access plan to ANSYS Belgium. ANSYS Belgium SA Avenue Pasteur, Wavre Belgium Brussels A4 Chaussée des collines N257 If you are arriving by car: from Brussels: Take the motorway E 411 direction Namur. Take exit n 5 bis, Wavre Zoning Nord and turn right, pass the bridge on top of the motorway direction Zoning Nord Go straight ahead at the roundabout and follow the Zoning Nord Les Collines direction Turn right at the light. Once you are in the zoning Les collines, follow the road, then turn right at the next roundabout, the building is located at number 4, avenue Pasteur. There are signed pointing to the ANSYS building. Easy suggestions, with one or two changes: from Brussels - Central / Nord stations: Take the IC (Intercity) train direction Leuven/Liège or Eupen (three departure an hour), until Leuven. Duration: about 20 minutes At Leuven take the bus De Lijn 337 direction Wavre, departure every hour 07; the bus station De Lijn is next to the railway station. Duration: about 45 minutes Ask for the bus stop Zoning Nord ; ANSYS Belgium is located in the Wavre Nord Business Park. Walking distance: 3 minutes 24 If you are arriving by plane (Brussels airport): by train: Take the rail link Airport - City - Express (three to four departures per hour; all departing trains go through Brussels). Change at Brussels-Nord, and from there, continue as explained above. by taxi: Please mention that you wish to reach ANSYS Belgium, in the Zoning Nord de Wavre (E411 Highway exit 5 bis). E411 Station ESSO 5 C.A. Wavre Nord Rixensart - Bierges Namur from Namur: Take the mortorway E 411 direction Brussels. Take exit n 5 Bierges-Rixensart, turn right and drive to the roundabout. From there continue as explained If you are arriving by train: For detailed train timetables in French, English, Dutch and German, go to from Brussels Airport: Take the IR (InterRegion train) or local train direction Leuven (two departure an hour). Duration: 15 minutes At Leuven take the bus De Lijn 337 direction Wavre, departure every hour 07; the bus station De Lijn is next to the railway station. Duration: about 45 minutes Ask for the bus stop Zoning Nord ; ANSYS Belgium is located in the Wavre Nord Business Park. Walking distance: 3 minutes 25

14 Accommodations Contacts Please find hereafter suggested hotels located in the neighborhood of ANSYS Belgium. Please make your own hotel reservation mentioning your participation at the seminar. If you have any question about our Training Services, please contact our local office: Hotels located in the neighborhood of ANSYS Belgium Leonardo Hotel Wavre Rue de la Wastinne, WAVRE Tel. : +32 (0)10/ Fax: +32 (0)10/ reservation.wavre@leonardo-hotels.com Single room: 115 with breakfast (2010 rate - subject to change) Please mention: special ANSYS rate Free shuttle to Zoning Nord: to check with the hotel Best Western Hotel Brussels East ANSYS Belgium SA Avenue Pasteur, Wavre Belgium Tel. : +32 (0) Fax: +32 (0) training-belgium@ansys.com Website: For more information about our company, please visit our corporate website: Avenue Lavoisier, WAVRE Tel. : +32 (0)10/ Fax: +32 (0)10/ Single room: 81 with breakfast (2010 rate - subject to change) Walking distance from the office Please mention: special ANSYS rate and make your reservation by mail : hotel.wavre@autogrill.net 26 27

15 CONTACTS If you have any question about our Training Services, please contact our local office: ANSYS Belgium SA Avenue Pasteur, Wavre Belgium Tel. : +32 ( 0 ) Fax : +32 ( 0 ) training-belgium@ansys.com Website : For more information about our company, please visit our corporate website :