A. SIVERT, F. BETIN, T. LEQUEU, F. MAEGHT, "Pedagogical study of electric go-karts: Technological choices, instrumentations, characteristics, challenge", WSEAS TRANSACTIONS ON ADVANCES IN ENGINEERING EDUCATION, Vol. 12, 2015, pp. 54-65.
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Titre : A. SIVERT, F. BETIN, T. LEQUEU, F. MAEGHT, Pedagogical study of electric go-karts: Technological choices, instrumentations, characteristics, challenge, WSEAS TRANSACTIONS ON ADVANCES IN ENGINEERING EDUCATION, Vol. 12, 2015, pp. 54-65.

Cité dans : [DATA033] Liste des publications de Thierry LEQUEU et activités de recherche, octobre 2022.
Cité dans : [DIV684]  Recherche sur l'auteur Arnaud SIVERT, janvier 2018.
Cité dans :[SHEET643] S. JACQUES, A Pedagogical Intensive Collaborative Electric Go-Kart Project, iJEP 2017, Vol. 7, No 4, pp. 117-134.
Auteur : Arnaud Sivert (1)
Auteur : Franck Betin (1)
Auteur : Thierry Lequeu (2)
Auteur : François MAEGHT (3)

Adresse : (1) Laboratory for Innovative Technologies (L.T.I), Team Energy Electric and Associated System
Lien : mailto:arnaud.sivert@iut.u-picardie.fr
Lien : mailto:franck.betin@u-picardie.fr

Adresse : (2) Institut Universitaire de Technologie de Tours, Département GEII, 37200 TOURS.
Lien : mailto:thierry.lequeu@univ-tours.fr

Adresse : (3) I.U.T. de Béthune, département G.E.I.I. Université d’Artois 62408 Béthune
Lien : mailto:francois.maeght@univ-artois.fr

Info : WSEAS TRANSACTIONS ON ADVANCES IN ENGINEERING EDUCATION
ISSN : 1790-1979
E-ISSN : 2224-3410
Volume : 12
Date : 2015
Pages : 95 - 104
Lien : http://wseas.org/wseas/cms.action?id=10176
Lien : http://www.wseas.org/multimedia/journals/education/2015/a205710-153.pdf
Lien : private/SIVERT-15.pdf - 10 pages, 1145 Ko.

Vers : Bibliographie

Abstract :
Electric vehicles are very good educational aids because they can be used by every student with lower costs compared to building a classic car.
The International Pedagogical electric go-kart Meeting that take place in France motivates students and help them to implement different technological choices.
These choices are often difficult because they mean saving the energy aboard, in accordance with new technologies.
Indeed, these future vehicles represent a difficult compromise between weight, volume, power, autonomy, and price.
The evolution of electric go-karts was made possible thanks to motors running on low voltage and new Lithium batteries.
This article will outline the resisting power depending on the vehicle speed, accelerating torque, types of motors and controllers used, energy sources and chargers.
Finally, one educational application will be pre-sented as this kind of vehicles uses many aspects of electrical engineering: power converter, battery, motor, controller, control, electronics, lights, instrumentation, sensor, mathematics, mechanics...

Key-words : go-kart challenge, motor electric control, Lithium battery, project-based teaching, battery charger, super capacity, instrumentation.


Bibliographie

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Référence : 15
[1] : A. SIVERT, T. LEQUEU, “I build my electric vehicle”, Book Dunod, 2013, 140 pages.
[2] : A. SIVERT, F. BETIN, J.P. BECAR, T. LEQUEU, “Do electric go-karts are getting better than gas powered ones?”, Ecological Vehicle and Renewable Energies Conference, EVER MONACO, March 2012. 6 pages.
[3] : B. LAWSON, “A software configurable battery” EVS26 International Battery, Hybrid and Fuel Cell Electric Vehicle Symposium EVS26, May 2012.
[4] : J.P. BECAR, T. LEQUEU, S. COLTON, “An Electrical Go-Kart for Project Based Learning Platform” EVER 2011.
[5] : A. SIVERT, F. BETIN, J.P. BECAR, “A Fuzzy Logic Application for Go-Kart: a Battery Charg-er”, EVER 2011.
[6] : E. ARMANDO, B. BOAZZO, P. GUGLIELMI, “Bull-ET: an High Performance Electric Kart”, EVER 2011.
[7] : B.CHAUCHAT “Charger integrated batteries for electric vehicle” P.H.D., November 28, 1997, Po-lytechnic School of Grenoble, France.
[8] : T. SOEIRO, T. FRIEDLI, J.W. KOLAR “Three-Phase High Power Factor Mains Interface Con-cepts for Electric Vehicle Battery Charging Systems” Proceedings of the 27th Applied Power Electronics Conference and Exposition (APEC 2012), Orlando Florida, USA, 02, 2012.
[9] : J.S. JOHANSEN “Fast-Charging Electric Vehicles using AC” Technical University of Denmark Thesis, 09.2013
[10] : T. LEQUEU, B. BIDOGGIA, Y. DERRIEN, N. GODEFROY, “Two Examples of Pedagogical Applications of Electrical Go-Karts”, EPE 2007, Denmark, 9 pages.
[11] : Web site of the French Association e-Kart: http://www.e-kart.fr , consulted on March 2015.
[12] : Web site of the electrical vehicles of the IUT GEII de l’Aisne: http://aisne02geii.e-kart.fr/, consulted on March 2015.
[13] : Web site of the online resource IUT en ligne : http://www.iutenligne.net/ressources/un-support-pedagogique-pluritechnologique-le-kart-electrique.HTMl, consulted 03/2015.
[14] : A. SIVERT, F. BETIN, “Réalisation d’un kart électrique : Etude, choix technologique, instrumentation embarquée, caractérisation”, Revue 3EI N°78, October 2014, page 23-32.
[15] : A. SIVERT, YouTube video about electrical go-kart electric at the International Challenge e-Kart 2014: https://www.youtube.com/watch?v=GezOzN9FdAg&list=PLfZunVn_gcq4pBCpV_T-bcretK_EwdhSi , consulted 04/2015.

  [1] : [LIVRE436] A. SIVERT, T. LEQUEU, Je construis mon véhicule électrique - Vélo, Kart, Moto, collection ETSF, Dunod, juillet 2013, 144 pages.
  [2] :  [PAP647]  A. SIVERT, F. BETIN, J.-P. BECAR, T. LEQUEU, Do Electric Go-Karts Are Getting Better than Gas-Powered Ones?, EVER Monaco, 2012, 6 pages.
  [3] :  [PAP158]  -------
  [4] :  [PAP639]  J.-P. BECAR, T. LEQUEU, S. COLTON, An Electrical Go-Kart For Project Based Learning Platform, EVER Monaco, 2011, 6 pages.
  [5] :  [PAP640]  A. SIVERT, F. BETIN, J.-P. BECAR, A Fuzzy Logic Application for Go-Kart : a Battery Charger, EVER Monaco, 2011, 6 pages.
  [6] :  [PAP644]  E. ARMANDO, B. BOAZZO, P. GUGLIELMI, Bull-ET: an High Performance Electric Kart, EVER Monaco, 2011, 7 pages.
  [7] :  [PAP158]  -------
  [8] :  [PAP158]  -------
  [9] :  [PAP158]  -------
 [10] :  [PAP608]  T. LEQUEU, B. BIDOGGIA, Y. DERRIEN, N. GODEFROY, Two Examples of Pedagogical Applications of Electrical Go-Karts, EPE 2007, Aalborg, Denmark, September 2-5, 2007, 9 pages.
 [11] :  [PAP158]  -------
 [12] :  [PAP158]  -------
 [13] :  [PAP158]  -------
 [14] : [SHEET616] A. SIVERT, F. BETIN, Réalisation d’un kart électrique : Etude, choix technologique, instrumentation embarquée, caractérisation, Revue 3E.I, N°78, Octobre 2014, pp. 23-32.
 [15] :  [PAP158]  -------


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