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This study aims to demonstrate the application of sizing and an analysis regarding the economic viability of a grid connected Photovoltaic System for a trade located in a commercial area of Manaus - AM, considering the agents that influence the initial investment analysis. and end of project. Exposing the relevant concepts around grid-connected photovoltaic systems (SFCR) establishing regulatory standards governing insertion for distributed generation micro and mini connection systems and methods for project investment analysis. Presenting the analysis effect of the economic viability of the system using the discounted payback investment methods, the energy consumption, in kWh, in the trade and investment profit and, finally, the results and conclusions obtained through the method of Discounted Payback analysis, which shows the viability of the project from a technical and economic point of view, in order to meet and contribute to sustainability and conservation of the environment.
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 B. R. D, VALE, Economic Feasibility Analysis of Implementing a Solar Parking: Case Study, Ufsj, São João del-Rei, 2018.pp. 6-61.
 PINHO, J, T and M.A. GALDINO, Engineering Manual for Photovoltaic Systems, Cepel / cresesb, Rio de Janeiro, 2014, pp. 50-530.
 ABSOLAR. Absolar National Agency for Photovoltaic Solar Energy, absolar.org.br. Absolar, 2019. Available at: http://absolar.org.br. Accessed on: Sep de. 2019, 10:15:10.
 NATIONAL ELECTRICITY AGENCY, ANEEL Micro and Mini Distributed Thematic Notebook Electric Power Compensation System, ANEEL, Brasília - DF, 2016.pp. 10-32.
 L. T.CAMARGO, Project of Photovoltaic Systems Connected to the Electricity Network, Ueu, Londrina, 2017, pp.. 33-103.
 SOUZA, R.D, Photovoltaic Solar Energy Systems: Digital Introduction to Solar Systems Book, Blue Sol, Ribeirão Preto - SP, 2016 pp. 16-114.
 ELECTRIC RESEARCH CENTER. Reference Center for Solar and Wind Energy Sérgio de salvo brito, Cresesb, Rio de Janeiro, 2014, pp. 9-13. 12-118.
 J.R. P.D.S.S, PHOTOVOLTA SOLAR ENERGY: Concepts and Applications for
High School, Mnpef, Belém-Pará, 2016, pp. 66-115.
 ELECTROBRAS AMAZON ENERGY. Low Voltage Electricity Supply (Individual Buildings). N ° 179, Manaus, 2014. Available from Eletrobras: http://www.eletrobrasamazonas.com> Accessed: .09 Sep 2019.
 L. M. D. SIQUEIRA. Study of the Dimensioning and Economic Feasibility of Photovoltaic Solar Microgenerer Connected to the Electricity Network. Juiz de Fora, 2015, pp.1-52. Available at Ufjf: https://www.ufjf.br/labsolar/files/2011/05/Study-of-security-and-economics-of-Microgenerator -Solar-Photovoltaic.pdf. Access on: Sep 13, 2019.