Model for Flow Simulator

BUILD AND EXPORT A MODEL IN ALTAIR FLOW SIMULATOR ENVIRONMENT

Overview

The aim of this export is to provide a “.flo” file which allows to get a machine model ready to be used in Altair® Flow SimulatorTM environment which will allow to represent the thermal behavior of the machine through a customizable lumped thermal parameter model coupled with a flow network when necessary.

In the current version of Altair® FluxMotor® the only application type available for Flow Simulator export is the steady state thermal analysis for three-phase inner rotor SMPM, RSM, and IMSQ. Thermal transient export and more machine types will be addressed in future versions.

The following section gives a short description of the process to export the model into Flow SimulatorTM environment.

Area to build and to export a model to Flow SimulatorTM environment



Motor Factory – EXPORT AREA – Export model for Flow SimulatorTM environment
1 Selection of the EXPORT area of Motor Factory.
2 Access to the area in which a model for Flow SimulatorTM environment can be made
3 Zone to visualize the overview of the selected model to be exported. Currently, it warns that this export is in BETA version.
4 3 steps to build the model to be exported for Flow SimulatorTM environment
5 Button to validate the inputs.
6 Buttons to export the “.flo” file for building the model in Flow SimulatorTM environment or to launch directly Flow SimulatorTM
Note: “. flo” files are text files used by Flow SimulatorTM to stock all the information about a project, e.g., the background images, the thermal/flow network components including their values, placements, etc.

Steps to build an export Flow Simulator

Introduction

In EXPORT / ADVANCED TOOLS / FLOW SIMULATOR area, 3 steps are needed to build and export data:
  1. Define the thermal model to be exported into Flow SimulatorTM. For the moment only the thermal steady state model is availaBLE.
  2. Define the test configuration, that means the user inputs/outputs parameters needed to perform the test (settings and user inputs of the considered test)
  3. Define the export information.

Test selection

In the current version of FluxMotor®, one test can be selected:
  • Characterization / Thermal – Motor & Generator / Steady State

Test configuration

After selecting the test, the corresponding test inputs (settings and user inputs) must be defined. This allows to define the initial conditions for the simulation process in Flow SimulatorTM environment.



Motor Factory – EXPORT AREA – Export a model for Flow SimulatorTM
1 Tab to define the initial conditions for the simulation process in Flow SimulatorTM environment
2 Access to thermal settings
3 User inputs and settings dealing with the considered test should be defined
4 Buttons to validate or cancel thermal settings
5 Buttons to validate inputs or to return to default values.

Export information

The last step for building a model for Flow SimulatorTM is to define the export information.

There are two data to be defined:
  • The name of the “.flo” file which will build the model in Flow SimulatorTM environment.
  • The folder in which the provided file will be stored.


Motor Factory – EXPORT AREA – Export model for Flow SimulatorTM – Export information
1 Tab to be expanded to define export information for Flow SimulatorTM
2 Area in which the export parameters to be defined are listed
3 Button to validate the previous choices
4 Button to finalize the export of the model. It opens the folder where the “.flo” file is generated.
5 Button to finalize the export of the model. It launches Flow SimulatorTM and builds the model.
Note: When data is missing / wrong in third table; “Export information” for instance, an error message is displayed in the red colored font which indicates what data is missing / wrong. If


Motor Factory – EXPORT AREA – Export model for Flow SimulatorTM – Error message
1 Error message displayed in the red colored font
2 The button to export the model is not active if the needed data are missing
Note: Exporting a model to Flow SimulatorTM (i.e. provide the “.flo” file to build the model) can take a few seconds, since it is necessary to run some pre-calculations to build the lumped parameter thermal model.