TESLA POWERWALL: ANALYSIS OF ITS USE IN PORTUGAL AND UNITED STATES

Sandy Rodrigues, Fábio Faria, Ashkan R. Ivaki, Nuno Cafôfo, Xiaoju Chen, Herlander Mata-Lima, and Fernando Morgado-Dias

References

  1. [1] A.E.-M.M. Abd El-Aal, A comparative study between energystorage batteries and hydrogen fuel cells for photovoltaic powersystems, International Journal of Power and Energy Systems,29(3), 2009, 167.
  2. [2] Tesla Motors, Powerwall Tesla home battery, 2015 [Online],http://www.teslamotors.com/powerwall [Accessed: 15-May-2015].
  3. [3] Wikipedia, Tesla Powerwall, Wikipedia, the free encyclopedia,2015 [Online], https://en.wikipedia.org/wiki/Tesla_Powerwall[Accessed: 15-Feb-2015].
  4. [4] S.R. Abreu, M. Le¸ca, X. Chen, and F. Morgado-Dias, Onthe current payback time for small investors in the photo-voltaic systems in the region of Madeira, CONTROLO’2014 –Proc. 11th Portuguese Conf. on Automatic Control, SpringerInternational Publishing, 2014, 375–384.
  5. [5] Ordinance 363/2007 of 2 of November, Establishes the legalframework for the production of electricity by micro units ofproduction, Di´ario da Rep´ublica, n.o 211, S´erie I de 2 deNovembro de 2007, 7978–7984.
  6. [6] Edision International Electricity Company Southern California,SCE introduces a new residential time-of-use rate plan, 2015[Online], http://on.sce.com/1SJh5J4 [Accessed: 15-May-2015].
  7. [7] ERSE, Electricity prices to the final consumer in Portugal[Online], http://bit.ly/1QPvsha [Accessed: 02-Feb-2015].
  8. [8] Ordinance 153/2014 of 20 of October, Distributed energyproduction, Di´ario da Rep´ublica n.o 202, S´erie I de 2014-10-2014, 5298–5311.
  9. [9] S. Rodrigues, F. Faria, N. Cafofo, X. Chen, and F. Morgado-dias, Small scale photovoltaic analysis for the residentialand commercial market in Portugal, International Journalof Chemical and Environmental Engineering (IJCEE), 6(4),2015, 247–255.
  10. [10] EIA, Electric power monthly, The U.S. Energy Information Ad-ministration (EIA), 2015 [Online], http://1.usa.gov/1TRIdFj[Accessed: 15-May-2015].
  11. [11] DSIRE, Database of state incentives for renewables & effi-ciency, N.C. Clean Energy Technology Center, 2015 [Online],http://www.dsireusa.org/ [Accessed: 15-May-2015].
  12. [12] D. Hahn and D. Llorens, 2015 United States solar power rank-ings, Solar Power Rocks, 2015 [Online], http://bit.ly/1zkj7oI[Accessed: 15-May-2015].
  13. [13] J.L. Bernal-Agust´ın and R. Dufo-L´opez, Economical and envi-ronmental analysis of grid connected photovoltaic systems inSpain, Renewable Energy, 31(8), 2006, 1107–1128.
  14. [14] A. Campoccia, L. Dusonchet, et al., An analysis of feed-in tariffs for solar PV in six representative countries of theEuropean Union, Solar Energy, 107, 2014, 530–542.
  15. [15] T. Lang, E. Gloerfeld, and B. Girod, Don’t just follow the sun– A global assessment of economic performance for residen-tial building photovoltaics, Renewable and Sustainable EnergyReviews, 42, 2015, 932–951.
  16. [16] C. Obaidullah Jan, ACA, Profitability index, 2013 [Online],http://bit.ly/1HfEyh9 [Accessed: 01-Feb-2015].
  17. [17] ERSE, Ciclo Hor´ario [Online], http://bit.ly/1QPvvcX [Ac-cessed: 02-Feb-2015].
  18. [18] Hawaii Public Utilities Commission, Effective Rate Summaries,2015 [Online], https://goo.gl/5x7WYo [Accessed: 15-May-2015].
  19. [19] Retscreen International, Renewable energy project analysissoftware, 2014 [Online], http://www.retscreen.net/ [Accessed:01-Jan-2015].
  20. [20] P. Stackhouse and J. Kusterer, Surface meteorology and so-lar energy, 2014 [Online], https://eosweb.larc.nasa.gov/sse/[Accessed: 14-Mar-2014].
  21. [21] PV Magazine, Tested: SolarWorld Sunmodule plus SW 245poly, 2013 [Online], http://bit.ly/1ZeHhyi [Accessed: 10-Mar-2015].
  22. [22] L. Granata, G., Pagnanelli, et al., Recycling of photovoltaicpanels by physical operations, Solar Energy Materials andSolar Cells, 123, 2014, 239–248.
  23. [23] K. Zweibel, Should solar photovoltaics be deployed soonerbecause of long operating life at low, predictable cost? EnergyPolicy, 38(11), 2010, 7519–7530.
  24. [24] Damia Solar, Multiplus ecosolar 3 kVa 2400 W 24 V, 2015[Online], http://bit.ly/1Kc7Cse [Accessed: 15-May-2015].
  25. [25] J. Peng, L. Lu, and H. Yang, Review on life cycle assessmentof energy payback and greenhouse gas emission of solar pho-tovoltaic systems, Renewable and Sustainable Energy Reviews,19, 2013, 2013.
  26. [26] M. Mani and R. Pillai, Impact of dust on solar PV performance:Research status, challenges and recommendations, Renewableand Sustainable Energy Reviews, 14, 2010, 3124–3131.
  27. [27] V. Fthenakis, R. Frischknecht, et al., Methodology guidelineson life cycle assessment of photovoltaic electricity, IEA PVPSTask, 2011, 12.
  28. [28] Eurostat, Electricity prices by type of user, 2015 [On-line], http://ec.europa.eu/eurostat/web/products-datasets/-/ten00117 [Accessed: 02-Feb-2015].
  29. [29] YCharts, US average retail price of electricity, YCharts, 2015[Online], http://bit.ly/1dfBZPQ [Accessed: 02-Feb-2015].42
  30. [30] IECONOMICS, Interest rate, 2015 [Online], http://www.tradingeconomics.com/ [Accessed: 20-Jan-2015].
  31. [31] P. Koner, V. Dutta, and K. Chopra, A comparative life cycleenergy cost analysis of photovoltaic and fuel generator for loadshedding application, Solar Energy Materials and Solar Cells,60(4), 2000, 309–322.
  32. [32] Retscreen developers, Retscreen software help, 2014 [Online],http://www.retscreen.net/ [Accessed: 01-Jan-2015].

Important Links:

Go Back

IASTED
Rotating Call For Paper Image