AVL Content Creation_1.3
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<strong>AVL</strong> <strong>Content</strong> <strong>Creation</strong> Guidelines<br />
Example: <strong>AVL</strong> FIRE M <br />
Please note: <strong>AVL</strong> FIRE M was designed from an Overview template to fulfil AST’s needs. ITS and<br />
PTE would use here the Product and Service template.<br />
Keywords<br />
Title<br />
Brand Promise<br />
Description<br />
The Relevance<br />
The Challenge<br />
The <strong>AVL</strong><br />
Solution<br />
Multi-physics, multi-material, CFD, IC engine, heat transfer, fluid flow, thermal load,<br />
different domains<br />
<strong>AVL</strong> FIRE M<br />
Simulation challenging reality<br />
CFD in a Multi-Domain Environment<br />
<strong>AVL</strong> FIRE M is a multi-domain simulation software simultaneously solving nonreacting,<br />
single-phase fluid flows, heat transfer and solid temperatures in systems<br />
without moving boundaries.<br />
Model generation<br />
<br />
<br />
How easy is it to generate a model?<br />
Can multiple domains be meshed simultaneously without arbitrary interface<br />
connection?<br />
Managing multiple domains and multiple materials<br />
<br />
<br />
<br />
Am I able to treat multiple domains in a single model?<br />
How can I handle heat transfer across multiple domains and domain interfaces?<br />
Is there a consistent material property database accessible to me?<br />
Investigating large numbers of designs<br />
<br />
Is it possible to parameterize my model and to easily generate variants?<br />
How can I analyze and judge all my simulation results?<br />
<strong>AVL</strong> FIRE M is the solution for optimizing performance parameters of flow-carrying<br />
elements. It also allows accurate prediction of heat transfer between fluid and structure<br />
and thermal load of solid parts.<br />
The software provides problem oriented, simple to use pre-processing solutions for<br />
geometries of all complexity levels. Multi-domain models are meshed in a single step.<br />
Domain interfaces are precisely maintained and do not require the generation of<br />
arbitrary connections.<br />
The main program is fully parallelized for maximum computing performance. Besides<br />
flow simulation, heat transfer and temperature fields in solid parts can be calculated<br />
seamlessly. Easy access to a comprehensive material property database supports<br />
users in characterizing even very complex models.<br />
<strong>AVL</strong> FIRE M models can be parameterized easily. Users can turn any input into a<br />
parameter. In minutes, variants can be derived with the help of embedded DOE and a<br />
case explorer.<br />
The Added Value<br />
Simulation results are displayed multi-dimensional thus cause and effect of flow<br />
phenomena can be judged quickly and accurate. Automatic template based reporting<br />
is available and can be executed both online interactively and offline script based.<br />
Compared to conventional CFD solutions <strong>AVL</strong> FIRE M provides:<br />
<br />
<br />
<br />
<br />
<br />
Shorter processing time<br />
Improved accuracy and performance of multi-domain solutions<br />
Readiness to execute large parameter studies<br />
One tool for computing, visualization and communication<br />
Access to CFD also for non-experts<br />
Author: Marketing<br />
<strong>AVL</strong> digital content guidelines_<strong>1.3</strong>.docx<br />
Created: 03/2016 confidential 19/35