Renewable Energies: Sustainability by Installation of Photovoltaic Panels and Urban Mobility by Electric Bicycle Electronics

  • Fábia de Oliveira Rodrigues Maruco
  • Lucio Garcia VeraldoJr.
  • Minella Martins
  • Patricia de Lima Bianch
Conference paper
Part of the Advances in Intelligent Systems and Computing book series (AISC, volume 600)

Abstract

To experience the prospect of sustainable development that meets all the needs of the present without compromising the ability of future generations through the rational use of natural resources. The technologies that allow the capture of the energy coming from the Sun are in constant development, allowing its use, successfully, in several situations. Is the need to think, design and operate a mobility plan that will affect the profile of cities with an impact on economic development, stimulating the use of means of transport, especially bicycles. The research project is fundamentally related to the practical feasibility of the use of solar energy by means of photovoltaic panels as a source of clean energy production, effective and capable of being used as fuel for bicycle racks, at low cost, as a correct policy Planning, development and quality of urban life. Sustainability and economics attract consumers to solar energy.

Keywords

Sustainability Photovoltaic solar energy Electric bicycle Urban mobility 

References

  1. ABINEE: Proposals for insertion of solar photovoltaic energy in the Brazilian electrical matrix, São Paulo (2012). http://www.abinee.org.br/informac/arquivos/profotov.pdf. Accessed 26 Feb 2017
  2. Branco, S.M.: Energy and Environment, pp. 64–144. Ed. Moderna, São Paulo (2010)Google Scholar
  3. Brazil: ABNT NBR 10.899 - photovoltaic systems – terminology. Accessed 7 Feb 2017Google Scholar
  4. Brazil: ABNT NBR 11.704 - photovoltaic systems - classification. Accessed 7 Feb 2017Google Scholar
  5. Brazil: ABNT NBR 11.876 - photovoltaic modules - specification. Accessed 7 Feb 2017Google Scholar
  6. Brazil: ABNT NBR 11.877 - photovoltaic systems. Accessed 7 Feb 2017Google Scholar
  7. Brazil: ABNT NBR 11.878 - photovoltaic devices - cells and reference modules. Accessed 7 Feb 2017Google Scholar
  8. Brazil: ABNT NBR 11.879 - photovoltaic devices - solar simulator - performance requirements. Accessed 7 Feb 2017Google Scholar
  9. Brazil: ABNT NBR 14.298 - photovoltaic systems - battery bank. Accessed 7 Feb 2017Google Scholar
  10. Brazil: National Electric Energy Agency – ANEEL. Accessed 8 Jan 2017Google Scholar
  11. Brazil: Civil Code. Law no. 10,406, Article 83, I, 1st edn. Revista dos Tribunais, São Paulo, 10 January 2002Google Scholar
  12. Brazil: Decree Law no. 4541, 23 December 2002. Accessed 15 Aug 2016Google Scholar
  13. Brazil: Green Room Project. Environment Ministry (2012). http://www.mma.gov.br/educacaoambiental/educomunicacao/salas-verdes#oprojeto. Accessed 30 Jan 2017
  14. Brazil: Law no. 5,655, 20 May 1971. Accessed 8 Jan 2017Google Scholar
  15. Brazil: Law no. 9,991, 24 July 2000. Accessed 8 Jan 2017Google Scholar
  16. Brazil: Law no. 10.438, 26 April 2002. Accessed 8 Jan 2017Google Scholar
  17. Brazil: Law no. 10,848, 15 March 2004. Accessed 8 Jan 2017Google Scholar
  18. Brazil: Ordinance of the Ministry of Mines and Energy no. 36, 28 November 2008. Accessed 8 Jan 2017Google Scholar
  19. Brazil: Photovoltaic Solar Energy: Grants for decision making. Series Documentos Técnicos. Centro de Gestão e Estudos Estratégicos. Ministry of Mines and Energy, Brazil (2010). Accessed 16 June 2016Google Scholar
  20. de Carvalho, C.R.F.: Isolated photovoltaic system: a practical application in the Xapuri Project. Federal University of Lavras, Lavras (2013)Google Scholar
  21. Fiorillo, C.A.P.: Brazilian Environmental Law Course, pp. 91, 203, 835. Ed. Saraiva, São Paulo (2011)Google Scholar
  22. Government of the State of São Paulo: Solar energy Paulista - survey of potential. www.energia.sP.gov.br. Accessed 10 June 2016. http://bibliotecasparque.rj.gov.br. Accessed 14 Aug 2016. http://g1.globo.com/sp/vale-do-paraiba-regiao/News/2014/01/students-create-ecological-parking-for-bicycles-emlorena.html. Accessed 4 Aug 2016
  23. Marin, J.: The limitation of property law - the effectiveness of the master plan in the search for sustainable cities. In: Law, Environment and Public Policies - Coordination Carlos Alberto Lunelli, Juruá, Curitiba, pp. 124–146 (2011)Google Scholar
  24. Milare, E.: Environmental law - environmental management in focus - doctrine, jurisprudence. Revista dos Tribunais, São Paulo, 7th edn., pp. 160–173 (2011)Google Scholar
  25. Ministry of Cities: Urban mobility is urban development - developed booklet, DF, Brasília (2005). www.cidades.gov.br. Accessed 18 June 2016
  26. Nalini, J.R.: Environmental ethics. Revista dos Tribunais, São Paulo, 11th edn., pp. 244–260 (2011)Google Scholar
  27. Pena, R.F.A.: Advantages and disadvantages of solar energy, Brazil School. Review of the Brazilian Association of the Electrical and Electronic Industry “Proposals for the Insertion of Photovoltaic Solar Energy in the Brazilian Electrical Matrix” - Prepared by the Sector Group of Photovoltaic Systems of ABINEE. Edition, June 2012. http://brasilescola.uol.com.br/geografia/vantages-desvantagens-energia-solar.htm. Accessed 24 Dec 2016

Copyright information

© Springer International Publishing AG 2018

Authors and Affiliations

  • Fábia de Oliveira Rodrigues Maruco
    • 1
  • Lucio Garcia VeraldoJr.
    • 1
  • Minella Martins
    • 1
  • Patricia de Lima Bianch
    • 1
  1. 1.UNISAL – Salesian University Center of Sao PauloLorenaBrazil

Personalised recommendations