Commit 8ae665e6 authored by Christophe Geuzaine's avatar Christophe Geuzaine

fix links

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<summary>2D models of multiple acoustic scattering</summary>
<file type="pro">scattering.pro</file>
<preview type="png">infos.png</preview>
<url>http://onelab.info/wiki/Acoustic_scattering</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Acoustic-scattering</url>
</model>
</models>
......@@ -43,7 +43,7 @@ test-case, on 100 CPUs):
Additional information
----------------------
See http://onelab.info/wiki/GetDDM and http://onelab.info/wiki/DDM_for_Waves.
See https://gitlab.onelab.info/doc/models/wikis/Domain-decomposition-methods-for-waves.
Description of the files in the archive
......
2D models of electric machines: permanent magnet and wound field synchronous
machines, induction machines, switched reluctance machine.
Models developed by R. Sabariego, J. Gyselinck and C. Geuzaine. This work was
funded in part by the Walloon Region (WBGreen No 1217703 FEDO, WIST3 No 1017086
ONELAB) and by the Belgian Science Policy (IAP P7/02). Copyright (c) 2012-2018
ULiège-ULB.
Quick start
-----------
Open `main.pro' with Gmsh.
Additional info
---------------
See http://onelab.info/wiki/Electric_Machines
The directory contains several examples:
* Eight-pole permanent magnet synchronous machine - GRUCAD, Universidade Federal
de Santa Catarina, Brazil
Used in:
M.V. Ferreira da Luz, P. Dular, N. Sadowski, C. Geuzaine, and J.P.A. Bastos,
"Analysis of a permanent magnet generator with dual formulations using
periodicity conditions and moving band", IEEE Trans. Mag., IEEE Trans. Mag.,
38(2):961-964, 2002. http://orbi.ulg.ac.be/handle/2268/22771
Files:
pmsm_data.geo
pmsm.geo
pmsm_rotor.geo
pmsm_stator.geo
pmsm.pro
pmsm_8p_circuit.pro
* Eight-pole permanent magnet synchronous machine - GRUCAD, Universidade Federal
de Santa Catarina, Brazil Same machine as previous one, but geometry has not
been simplified here.
Used in:
J. Gyselinck, N. Sadowski, P. Dular, M.V. Ferreira da Luz, J.P.A. Bastos,
W. Legros, "Harmonic balance finite element modelling of a permanent-magnet
synchronous machine", Proceedings of the V Brazilian Conference on
Electromagnetics (CBMag2002), 4-6 November 2002, Gramado, Brazil, 4 p.
http://hdl.handle.net/2013/ULB-DIPOT:oai:dipot.ulb.ac.be:2013/73090
J. Gyselinck, P. Dular, L. Vandevelde and J. Melkebeek, A.M. Oliveira,
P. Kuo-Peng, "Two-dimensional harmonic balance finite element modelling of
electrical machines taking motion into account", COMPEL: The International
Journal for Computation and Mathematics in Electrical and Electronic
Engineering, 22(4):1021-1036, 2003.
http://hdl.handle.net/2013/ULB-DIPOT:oai:dipot.ulb.ac.be:2013/72981
http://www.emeraldinsight.com/journals.htm?articleid=1455338
Files:
pmsm_cbmab_data.geo
pmsm_cbmag.geo
pmsm_cbmag_rotor.geo
pmsm_cbmag_stator.geo
pmsm_cbmag.pro
pmsm_8p_circuit.pro
* Eight-pole permanent magnet machine
Model from:
E.A. Lomonova, E. Kazmin, Y. Tang, J.J.H. Paulides, "In-wheel PM motor:
Compromise between high power density and extended speed capability", COMPEL:
The International Journal for Computation and Mathematics in Electrical and
Electronic Engineering, 30(1):98-116, 2011. Work presented at Ecologic
Vehicles-Renewable Energies (EVRE), Monaco, March 26-29, 2009
http://www.emeraldinsight.com/journals.htm?articleid=1906093
with Concentrated or distributed windings (different parameters for the geometry)
Files:
lomonova_data.geo
lomonova.geo
lomonova_rotor.geo
lomonova_stator.geo
lomonova.pro
lomonova_circuit.pro
* Four-pole wound field synchronous machine
Used in:
J. Gyselinck, L. Vandevelde, J. Melkebeek, W. Legros, "Steady-state finite
element analysis of a salient-pole synchronous machine in the frequency
domain", Proceedings the 7th International Conference on Modeling and
Simulation of Electric Machines, Converters and Systems (ELECTRIMACS2002),
August 18-21, Montréal, Canada, 6 p.
http://hdl.handle.net/2013/ULB-DIPOT:oai:dipot.ulb.ac.be:2013/73097
http://hdl.handle.net/1854/LU-160736
Files:
wfsm_4p_data.geo
wfsm_4p.geo
wfsm_4p_rotor.geo
wfsm_4p_stator.geo
wfsm_4p.pro
wfsm_4p_circuit.pro
* TEAM workshop problem 30a - Induction motor analysis
See: http://www.compumag.org/jsite/team.html and
http://www.infolytica.com/en/applications/ex0035/
Files:
t30_data.geo
t30.geo
t30_rotor.geo
t30_stator.geo
t30.pro
* Four-pole 3kW-induction machine from Johan Gyselinck's PhD
J. Gyselinck, "Twee dimensionale dynamische eindige-elementenmodellering van
statische en roterende elektromagnetische energieomzetters", Ph.D. thesis,
Universiteit Gent, 2000.
Some articles where it has been used:
J. Gyselinck, L. Vandevelde, and J. Melkebeek, "Multi-slice modeling of
electrical machines with skewed slots - The skew discretization error”, IEEE
Trans. Magn., IEEE Trans. Magn., 37(5):3233–3237, 2002.
http://hdl.handle.net/2013/ULB-DIPOT:oai:dipot.ulb.ac.be:2013/72985
http://hdl.handle.net/1854/LU-144482
J. Gyselinck, L. Vandevelde, P. Dular, C. Geuzaine, W. Legros, "A general
method for the frequency domain FE modeling of rotating electromagnetic
devices", IEEE Trans. Magn., 39(3):1147-1150, 2003.
http://hdl.handle.net/2013/ULB-DIPOT:oai:dipot.ulb.ac.be:2013/72982
http://hdl.handle.net/2268/22767 http://hdl.handle.net/1854/LU-211446
http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=1198420
Files:
im_3kW_data.geo
im_3kW.geo
im_3kW_rotor.geo
im_3kW_stator.geo
im_3kW.pro
im_3kW_circuit.pro
* Four-pole induction machine
Used in:
S. Guérard, J. Gyselinck, and J. Lecomte-Beckers, "Finite element modelling of
an asynchronous motor with one broken rotor bar, comparison with the data
recorded on a prototype and material aspects", Bulletin Scientifique de l'AIM,
1:13-22, 2005. Prix Melchior Salier 2004 du meilleur travail de fin d'études
section électromécanique-énergétique. http://hdl.handle.net/2268/38463
Files:
im_data.geo
im.geo
im_rotor.geo
im_stator.geo
im.pro
im_circuit.pro
* Switched reluctance machine
Used in:
J. Gyselinck, C. Geuzaine, and R. V. Sabariego. Considering laminated cores
and eddy currents in 2D and 3D finite element simulation of electrical
machines. In Proceedings of the 18th Conference on the Computation of
Electromagnetic Fields (COMPUMAG2011), Sydney, Australia, July 12–15, 2011.
J. Gyselinck, C. Geuzaine, and R. V. Sabariego. Homogenisation of windings
and laminations in time-domain finite-element modeling of electrical machines.
In Proceedings of the 15th Biennial IEEE Conference on Electromagnetic Field
Computation (CEFC2012), Oita, Japan, November 11– 14, 2012.
Files:
srm_data.geo
srm.geo
srm_rotor.geo
srm_stator.geo
srm.pro
srm_circuit.pro
......@@ -6,27 +6,27 @@
<summary>Eight-pole surface mounted PMSM</summary>
<file type="geo">pmsm.geo</file>
<preview type="png">infos_pmsm.png</preview>
<url>http://onelab.info/wiki/Electric_machines</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Electric-machines</url>
</model>
<model>
<title>Wound field synchronous machine</title>
<summary>Four-pole WFSM</summary>
<file type="geo">wfsm_4p.geo</file>
<preview type="png">infos_wfsm_4p.png</preview>
<url>http://onelab.info/wiki/Electric_machines</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Electric-machines</url>
</model>
<model>
<title>Induction machine</title>
<summary>3kW Four-pole induction machine</summary>
<file type="pro">im_3kW.pro</file>
<preview type="png">infos_im_3kW.png</preview>
<url>http://onelab.info/wiki/Electric_machines</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Electric-machines</url>
</model>
<model>
<title>Switched reluctance machine</title>
<summary>Simple SRM</summary>
<file type="pro">srm.pro</file>
<preview type="png">infos_srm.png</preview>
<url>http://onelab.info/wiki/Electric_machines</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Electric-machines</url>
</model>
</models>
......@@ -6,6 +6,6 @@
<summary>2D model of an electro-mechanical relay</summary>
<file type="pro">relay.pro</file>
<preview type="png">screenshot_relay_128.png</preview>
<url>http://onelab.info/wiki/Electromechanical_relay</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Electromechanical-relay</url>
</model>
</models>
......@@ -6,6 +6,6 @@
<summary>2D and 3D model of an inductor/core system</summary>
<file type="pro">inductor.pro</file>
<preview type="png">screenshot_inductor_128.png</preview>
<url>http://onelab.info/wiki/Inductor</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Inductor</url>
</model>
</models>
......@@ -6,6 +6,6 @@
<summary>3D model of a xylophone-bar magnetometer</summary>
<file type="pro">magnetometer.pro</file>
<preview type="png">infos.png</preview>
<url>http://onelab.info/wiki/Magnetometer</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Magnetometer</url>
</model>
</models>
......@@ -6,6 +6,6 @@
<summary>3D force computation of a collection of magnets</summary>
<file type="pro">magnets.pro</file>
<preview type="png">screenshot_magnets_128.png</preview>
<url>http://onelab.info/wiki/Magnets</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Magnets</url>
</model>
</models>
......@@ -6,6 +6,6 @@
<summary>2D and 3D H-formulation of HTS with nonlinear power law</summary>
<file type="pro">helix.pro</file>
<preview type="png">screenshot_helix_128.png</preview>
<url>http://onelab.info/wiki/Superconducting_wire</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Superconductors</url>
</model>
</models>
......@@ -6,6 +6,6 @@
<summary>Heat conduction after a transient heat flux pulse</summary>
<file type="pro">contact.pro</file>
<preview type="png">infos.png</preview>
<url>http://onelab.info/wiki/Thermal_conduction</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Thermal-conduction</url>
</model>
</models>
......@@ -6,27 +6,27 @@
<summary>2D model of a rectangular metallic waveguide</summary>
<file type="pro">waveguide2D_straight.pro</file>
<preview type="png">infos_straight.png</preview>
<url>http://onelab.info/wiki/Waveguides</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Waveguides</url>
</model>
<model>
<title>H-bend waveguide</title>
<summary>2D model of a bended metallic waveguide</summary>
<file type="pro">waveguide2D_Hbend.pro</file>
<preview type="png">infos_Hbend.png</preview>
<url>http://onelab.info/wiki/Waveguides</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Waveguides</url>
</model>
<model>
<title>Star-shaped waveguide</title>
<summary>2D model of a star-shaped metallic waveguide</summary>
<file type="pro">waveguide2D_starNetwork.pro</file>
<preview type="png">infos_starNetwork.png</preview>
<url>http://onelab.info/wiki/Waveguides</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Waveguides</url>
</model>
<model>
<title>Multi-mode interference coupler</title>
<summary>2D model of an MMI</summary>
<file type="pro">waveguide2D_MMI.pro</file>
<preview type="png">infos_MMI.png</preview>
<url>http://onelab.info/wiki/Waveguides</url>
<url>https://gitlab.onelab.info/doc/models/wikis/Waveguides</url>
</model>
</models>
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