A. SIVERT, F. BETIN, T. LEQUEU, "Pedagogical study of an electric bike with low energy consumption, management and dimensioning of onboard energy : eco marathon", WSEAS TRANSACTIONS ON ADVANCES IN ENGINEERING EDUCATION, Vol. 11, 2014, pp. 54-65.

A. SIVERT, F. BETIN, T. LEQUEU, "Pedagogical study of an electric bike with low energy consumption, management and dimensioning of onboard energy : eco marathon", WSEAS TRANSACTIONS ON ADVANCES IN ENGINEERING EDUCATION, Vol. 11, 2014, pp. 54-65. Copyright - [Précédente] [Première page] [Suivante] - Home

Article : [PAP656]

Titre : A. SIVERT, F. BETIN, T. LEQUEU, Pedagogical study of an electric bike with low energy consumption, management and dimensioning of onboard energy : eco marathon, WSEAS TRANSACTIONS ON ADVANCES IN ENGINEERING EDUCATION, Vol. 11, 2014, pp. 54-65.

Cité dans : [DATA033] Liste des publications de Thierry LEQUEU et activités de recherche, octobre 2022.

Auteur : Arnaud Sivert (1)
Auteur : Franck Betin (1)
Auteur : Thierry Lequeu (2)

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

Info : WSEAS TRANSACTIONS ON ADVANCES IN ENGINEERING EDUCATION
ISSN : 1790-1979
E-ISSN : 2224-3410
Volume : 11
Date : 2014
Pages : 54 - 65
Lien : http://wseas.org/cms.action?id=7703
Lien : private/SIVERT-04.pdf - 12 pages, 1368 Ko.

Vers : Bibliographie

Abstract :
The electric bike is a very good educational system because it can be used by all students without problem of safety.
When pedaling on the electric bike, the student can identify with the motor drive and understand the meaning of torque, speed and power.
This educational system uses many modules of Electrical Engineering: power converter, battery, motor, controller, electronics, lights, instrumentation, sensors, mathematical modeling, mechanics...
Thus, many technologies can be presented. These vehicles have a difficult compromise between weight, power, battery life, and price. These vehicles could be implemented using new composite materials and new Lithium batteries.
But to increase the lifespan of the batteries, which represent 35 % of the electric vehicle price, we will demonstrate the benefits of a control with constant power through the motor, compared to a control with a constant force.
This paper will outline the resistive power, as a function of vehicle speed and the state of energy consumption.
A comparison of energy prices between different kinds of electric vehicle will be presented.
The advantages and disadvantages of using super capacitors will be presented, as well as energy management on board the motor speed controller.
Then, an overview of the regulation of a fast charger with current control and voltage control will be presented.
Finally, many educational applications will be presented around the electric vehicle realized.

Key-Words : Challenge Eco Marathon, motor control constant power, Lithium battery, motorized electrical cycle, project-based teaching, battery charger, super capacity, energy management.

Bibliographie

Référence : 17
[1] : A. Sivert, T. Lequeu “ I build my electric vehicle ”, Publishing book french Dunod, 2013, 144 pages.
[2] : PANG-CHIA CHEN, CHIH-CHING HSIAO, SUN-LI WU, SHYUE-BIN CHANG “The Torque Control with Multi-Objective Performance for E-Bike Systems with Human Power Assistance”, WSEAS TRANSACTIONS on SYSTEMS and CONTROL, volume 6 october, 2011, pp 361-370.
[3] : M. S. Carmeli, F. Castelli Dezza, G.Galmarini, M. Mauri and L. Piehari, “A vehicle with very low fuel consumption; realization, analysis and optimization”, in XIX International Conference on Electrical Machines, Rome, Italy, 2010.
[4] : José Fernández Ramos, Juan Jesús Fernández Lozano, Alfonso Gago Calderón “Design of Electric Racing Vehicles: An experience of interdisciplinary project-based education in engineering” EVS 27, octobre 2013
[5] : A. Sivert “Le vélo électrique » Revue des départements Génie électrique & informatique GESI N°80, décembre 2012, pp 26-33.
[6] : A. Sivert, F. Betin, S. Carriere “Difference force and constant power control applied to electrical bike”, EVER ecologic vehicles & renewable energies de MONACO, mai 2012.
[7] : A. Sivert, F. Betin, J. Becar “An Electrical Bike For Project Based Learning Platform”, EVER ecologic vehicles & renewable energies de MONACO, avril 2011.
[8] : A. Sivert, F. Betin, J. Becar “A Fuzzy Logic Application for charger of batteries : go-kart”, Conference EVER ecologic vehicles & renewable energies de MONACO, Avril 2011.
[9] : S. Viollin « le vélo à assistance électrique » les cahiers de l’instrumentation N°9, Chauvin Arnoux, octobre 2010
[10] : A. Sivert, “electric bike”, iut en ligne : http://public.iutenligne.net/etudes-et-realisations/sivert/veloelec/ (03.2014)
[11] : Forum bentrider : (03.2014) http://velorizontal.bbfr.net/t15952-kit-3000w 2013.
[12] : Etude de la consommation énergétique d’un vélo-mobile : http://velorizontal.bbfr.net/t17956-leiba-x-stream-electric-iut-aisne-2013 (03.2014)
[13] : Web site : Construction of Electric Vehicle: http://aisne02geii.e-kart.fr/. (03.2014)
[14] : http://en.wikipedia.org/wiki/Velomobile (03.2014)
[15] : Site web : eco-marathon competition. http://www.educeco.net/
[16] : http://fr.wikipedia.org/wiki/eco-marathon (03.2014)
[17] : E. Hoang, G. Feld, B. Revol, D. Penard, « Eléments d'étude d'un système de stockage de l'énergie électrique : le supercondensateur, La revue 3E.I, N°49, juin 2007, pp. 15-21

  [1] : [LIVRE436] A. SIVERT, T. LEQUEU, Je construis mon véhicule électrique - Vélo, Kart, Moto, collection ETSF, Dunod, juillet 2013, 144 pages.
  [2] :  [PAP158]  -------
  [3] :  [PAP158]  -------
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  [5] :  [ART646]  A. SIVERT, Le vélo électrique, La revue GESI, N°80, décembre 2012, pp. 26-32.
  [6] :  [PAP648]  A. SIVERT, F. BETIN, S. CARRIERE, Electrically Propelled Bike: a comparison between Two Control Strategies, EVER Monaco, 2012, 6 pages.
  [7] :  [PAP639]  J.-P. BECAR, T. LEQUEU, S. COLTON, An Electrical Go-Kart For Project Based Learning Platform, EVER Monaco, 2011, 6 pages.
  [8] :  [PAP640]  A. SIVERT, F. BETIN, J.-P. BECAR, A Fuzzy Logic Application for Go-Kart : a Battery Charger, EVER Monaco, 2011, 6 pages.
  [9] : [SHEET613] S. VIOLLIN, Le vélo à assistance électrique, les cahiers de l’instrumentation N°9, Chauvin Arnoux, octobre 2010, pp 2-5.
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 [16] :  [PAP158]  -------
 [17] : [SHEET568] E. HOANG, G. FELD, B. REVOL, D. PENARD, Eléments d'étude d'un système de stockage de l'énergie électrique : le supercondensateur, La revue 3E.I, N°49, juin 2007, pp. 15-21.

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