KnE Engineering

ISSN: 2518-6841

The latest conference proceedings on all fields of engineering.

Controller Design and Experimental Validation of a Solar Powered E-bike Charging Station

Published date: Jun 02 2020

Journal Title: KnE Engineering

Issue title: International Congress on Engineering — Engineering for Evolution

Pages: 846–856

DOI: 10.18502/keg.v5i6.7104

Authors:

Carlos José Oliveira Inácio - carlos.inacio@ubi.pt

Ivan Joel Ponciano Silva

João Pedro Domingues Faria

Jose Alvaro Nunes Pombo

Maria do Rosário Alves Calado

Sílvio José Pinto Simoes Mariano

Abstract:

Electric Vehicles (EV) have gained interest over the past decade. Because of this, to support EV technology installation of charging stations are required. Charging EVs from renewable energy provides a sustainable means of transport. E-bikes can help mitigate some mobility problems, particularly in large cities and metropolitan areas. This paper shows the development and implementation of a solar e-bike charging station with photovoltaic production, with energy storage system. The implemented system has a centralized control and allow an efficient management of the various resources and contemplates the possibility of four simultaneous e- bikes where user identification is performed by RFID. Finally, it is provided a user interface through an HMI panel and a web page where it will be possible to access the DataLog to consult the user activity and all charging parameters.

Keywords: Renewable energy, Solar charging station, Programmable logic controller

 

References:

[1] G. Ram et al., “Solar powered e-bike charging station with AC, DC and contactles s charging,” in 20th European Conference on Power Electronics and Applications (EPE’18 ECCE Europe), 2018, pp. 1–3.

[2] R. J. C. Calado, Maria do Rosário A.; Mariano, Sílvio J.P.S; Pombo, José A.N.; Pinto, “PV charging station for electric vehicles,” in IEEE 16th International Conference on Environment and Electrical Engineering (EEEIC), 2016, pp. 1–4.

[3] G. R. C. Mouli, P. Bauer, and M. Zeman, “System design for a solar powered electric vehicle charging station for workplaces,” Appl. Energy, vol. 168, pp. 434–443, 2016.

[4] U. European, “European Green Vehicles Initiative PPP: Use of new energies in road transport,” pp. 1–2, 2013.

[5] T. F. R. P. F. Marques, “Projeto de uma Estação de Carregamento Solar para Bicicleta s Elétricas,” Universidade de Lisboa, 2019.

[6] E. Fishman and C. Cherry, “E-bikes in the Mainstream: Reviewing a Decade of Research,” Transp. Rev., vol. 36(1), pp. 72–91, 2016.

[7] K. Silverstein, “Li-ion Segment Driving Global E-Bike Growth,” 2016. [Online]. Available: https:// www.environmentalleader.com/2016/08/li-ion-segment-driving-global-e-bike-growth/. [Accessed: 10- Sep-2019].

[8] Relion, “7 Facts Comparing Lithium-ion With Lead Acid Batteries,” 2015. [Online]. Available: https://relionbattery.com/blog/7-facts-comparing-lithium-ion-with-lead-acid-batteries. [Accessed: 18- Sep-2019].

[9] L. N. Demeter, V. Turcin, M. Hanek, G. Vataselu, and B. Zorlescu, “Modular solution for charging the batteries of electric bikes parked on public domain,” in 2017 Electric Vehicles International Conference (EV), 2017, pp. 1–5.

[10] D. da Republica, “Código da Estrada Lei n.o 72/2013 - Artigo 112o.” pp. 52–53, 2013.

[11] T. Jones, L. Harms, and E. Heinen, “Motives, perceptions and experiences of electric bicycle owners and implications for health, wellbeing and mobility,” J. Transp. Geogr., vol. 53, pp. 41–49, 2016.

[12] Siemens, “S7-1500 / S7-1500F Technical Data,” pp. 5–6, 2015.

[13] H. Jack, “Automating Manufacturing Systems with PLCs,” 2007.

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