Published:

2022-12-29

Issue:

Vol. 16 No. 2 (2022)

Section:

A Research Vision

Study of the behavior of the photovoltaic panel according to the installed surface

Estudio del comportamiento del panel fotovoltaico según la superficie instalada

Authors

  • Javier Gonzalo Ascanio-Villabona Unidades Tecnológicas de Santander
  • Brayan Eduardo Tarazona-Romero Unidades Tecnológicas de Santander
  • Camilo Leonardo Sandoval Unidades Tecnológicas de Santander

Keywords:

Efficiency, Energy, Photovoltaic, Surface, Temperature (en).

Keywords:

Eficiencia, Energía, Fotovoltaico, Superficie, Temperatura (es).

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Abstract (en)

This article focuses on the study of the behavior of electrical variables (Power, Voltage, Current) and the temperature incidence of a monocrystalline photovoltaic panel (PFV), installed on a wooden and drywall surface and another installed on standard surface (Cement), to contrast them, and obtain the behavior of these variables, in order to determine which of the two surfaces on which the monocrystalline photovoltaic panels are installed provides the greatest power.
The methodological phase was advanced on the terrace of the Santander Technological Units, applying both scientific and comparative research methods, which, a prototype is designed for the measurement of the data by installing elements that constitute a photovoltaic solar system, and measuring instruments for capturing and taking data from the variables to be studied. Data capture is performed for 60 days, for subsequent comparative analysis of each of the electrical variables presented by THE PVFs.
As results of this research, comparative graphs of the electrical and thermal behavior of the photovoltaic panels are obtained on the two installed surfaces. This article focuses on the study of the behavior of electrical variables (Power, Voltage, Current) and the temperature incidence of a monocrystalline photovoltaic panel (PFV), installed on a wooden and drywall surface and another installed on standard surface (Cement), to contrast them, and obtain the behavior of these variables, in order to determine which of the two surfaces on which the monocrystalline photovoltaic panels are installed provides the greatest power.

Abstract (es)

El presente artículo centra en el estudio del comportamiento de las variables eléctricas (Potencia, Voltaje, Corriente) y la incidencia de la temperatura que presenta un panel fotovoltaico monocristalino(PFV), instalado en una superficie de madera y drywall y otro instalado en superficie estándar (hormigón), para contrastarlos, y obtener la conducta de estas variables, para así determinar cuál de las dos superficies en las que se instalan los paneles fotovoltaicos monocristalinos provee mayor potencia.
La fase metodológica se adelantó en la terraza de las Unidades Tecnológicas de Santander, aplicando métodos investigativos tanto científico como comparativo, la cual, se diseña un prototipo para la medición de los datos instalando elementos que constituyen un sistema solar fotovoltaico, y los instrumentos de medición para la captura y toma de datos de las variables a estudiar. La captura de datos se realiza durante 60 días, para el posterior análisis comparativo de cada una de las variables eléctricas que presentan los PVF.
Como resultados de la presentes investigación se obtienen la graficas comparativas del comportamiento eléctrico y térmico de los paneles fotovoltaicos en las dos superficies instaladas. El presente artículo centra en el estudio del comportamiento de las variables eléctricas (Potencia, Voltaje, Corriente) y la incidencia de la temperatura que presenta un panel fotovoltaico monocristalino(PFV), instalado en una superficie de madera y drywall y otro instalado en superficie estándar (hormigón), para contrastarlos, y obtener la conducta de estas variables, para así determinar cuál de las dos superficies en las que se instalan los paneles fotovoltaicos monocristalinos provee mayor potencia.

References

Cambio Energetico, “¿cómo influye la temperatura en el rendimiento de tu placa solar?”, 2017. [Online]. Available: https://www.cambioenergetico.com/blog/influye-la-temperatura-rendimiento-placa-solar/

Google Maps, “Google Maps”, 2019. [Online]. Available: https://www.google.com/maps/place/Technological+Units+Santander/@4.4605312,-72.1018114,5z/data=!4m5!3m4!1s0x8e683fc8a8b0973f:0x5f50c91e41f0ac6e!8m2!3d7.105114!4d-73.1235999

Alcaldía de Bucaramanga, “Santander”, 2017. [Online]. Available: http://versionantigua.bucaramanga.gov.co/Contenido.aspx?Param=9

Alcaldía de Bucaramanga, “Bucaramanga”, 2015. [Online]. Available: https://www.bucaramanga.gov.co/el-mapa/division-politico-urbana/

J. E. Vera, “Maximum power point tracking (MPPT) in solar panels”, Vision Electronica, vol. 8, no. 2, pp. 49-53, 2014.

S. Medina-Rincón, “Energías renovables un futuro óptimo para Colombia”, Punto de Vista, vol. 9, no. 13, 2018.

Y. E. García-Vera, “Comparative Analysis of the Performance of Monocrys-talline and Polycrystalline PV modules in wheater conditions of Fusagasugá”, Ingenieria, vol. 24, no. 1, 2019.

I. Bonilla-Camposa, “Energy efficiency assessment: Process modelling and waste heat recovery analysis”, Energy Conversion and Management, vol. 196, p. 1108, 2019.

A. C. Valencia, “Crisis energética”, Universidad Distrital, pp. 74-81, 2016.

How to Cite

APA

Ascanio-Villabona, J. G., Tarazona-Romero, B. E., and Sandoval, C. L. (2022). Study of the behavior of the photovoltaic panel according to the installed surface. Visión electrónica, 16(2). https://revistas.udistrital.edu.co/index.php/visele/article/view/18885

ACM

[1]
Ascanio-Villabona, J.G. et al. 2022. Study of the behavior of the photovoltaic panel according to the installed surface. Visión electrónica. 16, 2 (Dec. 2022).

ACS

(1)
Ascanio-Villabona, J. G.; Tarazona-Romero, B. E.; Sandoval, C. L. Study of the behavior of the photovoltaic panel according to the installed surface. Vis. Electron. 2022, 16.

ABNT

ASCANIO-VILLABONA, Javier Gonzalo; TARAZONA-ROMERO, Brayan Eduardo; SANDOVAL, Camilo Leonardo. Study of the behavior of the photovoltaic panel according to the installed surface. Visión electrónica, [S. l.], v. 16, n. 2, 2022. Disponível em: https://revistas.udistrital.edu.co/index.php/visele/article/view/18885. Acesso em: 17 jul. 2024.

Chicago

Ascanio-Villabona, Javier Gonzalo, Brayan Eduardo Tarazona-Romero, and Camilo Leonardo Sandoval. 2022. “Study of the behavior of the photovoltaic panel according to the installed surface”. Visión electrónica 16 (2). https://revistas.udistrital.edu.co/index.php/visele/article/view/18885.

Harvard

Ascanio-Villabona, J. G., Tarazona-Romero, B. E. and Sandoval, C. L. (2022) “Study of the behavior of the photovoltaic panel according to the installed surface”, Visión electrónica, 16(2). Available at: https://revistas.udistrital.edu.co/index.php/visele/article/view/18885 (Accessed: 17 July 2024).

IEEE

[1]
J. G. Ascanio-Villabona, B. E. Tarazona-Romero, and C. L. Sandoval, “Study of the behavior of the photovoltaic panel according to the installed surface”, Vis. Electron., vol. 16, no. 2, Dec. 2022.

MLA

Ascanio-Villabona, Javier Gonzalo, et al. “Study of the behavior of the photovoltaic panel according to the installed surface”. Visión electrónica, vol. 16, no. 2, Dec. 2022, https://revistas.udistrital.edu.co/index.php/visele/article/view/18885.

Turabian

Ascanio-Villabona, Javier Gonzalo, Brayan Eduardo Tarazona-Romero, and Camilo Leonardo Sandoval. “Study of the behavior of the photovoltaic panel according to the installed surface”. Visión electrónica 16, no. 2 (December 29, 2022). Accessed July 17, 2024. https://revistas.udistrital.edu.co/index.php/visele/article/view/18885.

Vancouver

1.
Ascanio-Villabona JG, Tarazona-Romero BE, Sandoval CL. Study of the behavior of the photovoltaic panel according to the installed surface. Vis. Electron. [Internet]. 2022 Dec. 29 [cited 2024 Jul. 17];16(2). Available from: https://revistas.udistrital.edu.co/index.php/visele/article/view/18885

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