**Author details**

Issa Faye1 \*, Ababacar Ndiaye1 and Elkhadji Mamadou<sup>2</sup>


\*Address all correspondence to: issafaye1211@gmail.com

© 2021 The Author(s). Licensee IntechOpen. This chapter is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/ by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

**135**

80, no

*Influence of the Incidence Angle Modifier and Radiation as a Function of the Module…*

increased flexibility in seasonal energy extraction », *Renew. Energy*, vol. 125, p.

[10] U. Blieske et G. Stollwerck, « Glass and Other Encapsulation Materials », in *Semiconductors and Semimetals*, vol. 89,

[11] V. Sumathi, R. Jayapragash, A. Bakshi, et P. K. Akella, « Solar tracking methods to maximize PV system output–A review of the methods adopted in recent decade », *Renew. Sustain. Energy Rev.*, vol. 74, p. 130-

[12] H. Mousazadeh, A. Keyhani, A. Javadi, H. Mobli, K. Abrinia, et A. Sharifi, « A review of principle and suntracking methods for maximizing solar systems output », *Renew. Sustain. Energy* 

[13] C. S. Chin, A. Babu, et W. McBride, « Design, modeling and testing of a standalone single axis active solar tracker using MATLAB/Simulink »,

[14] F. Sallaberry, R. Pujol-Nadal, M. Larcher, et M. H. Rittmann-Frank, « Direct tracking error characterization on a single-axis solar tracker », *Energy Convers. Manag.*, vol. 105, p. 1281-

[15] R. G. Vieira, F. Guerra, M. Vale, et M. M. Araújo, « Comparative performance analysis between static solar panels and single-axis tracking system on a hot climate region near to the equator », *Renew. Sustain. Energy Rev.*, vol. 64, p. 672-681, 2016.

[16] S. Abdallah et S. Nijmeh, « Two axes sun tracking system with PLC control », *Energy Convers. Manag.*, vol. 45, no

11-12, p. 1931-1939, 2004.

8, p. 1800-1818, 2009.

11, p. 3075-

1038-1048, 2018.

138, 2017.

*Rev.*, vol. 13, no

3090, 2011.

1290, 2015.

*Renew. Energy*, vol. 36, no

Elsevier, 2013, p. 199-258.

*DOI: http://dx.doi.org/10.5772/intechopen.96160*

[1] M. A. Green et S. P. Bremner, « Energy conversion approaches and materials for high-efficiency photovoltaics », *Nat. Mater.*, vol. 16, no

[2] A. Pospischil, M. M. Furchi, et T. Mueller, « Solar-energy conversion and light emission in an atomic monolayer pn diode », *Nat. Nanotechnol.*, vol. 9, no

[3] Ö. Ayvazoğluyüksel et Ü. B. Filik, « Estimation methods of global solar radiation, cell temperature and solar power forecasting: A review and case study in Eskişehir », *Renew. Sustain. Energy Rev.*, vol. 91, p. 639-653, 2018.

[4] J. J. Michael, S. M. Iqbal, S. Iniyan, et R. Goic, « Enhanced electrical performance in a solar photovoltaic module using V-trough concentrators », *Energy*, vol. 148, p. 605-613, 2018.

[5] M. Ebert, H. Stascheit, I. Hädrich, et U. Eitner, « The impact of angular dependent loss measurement on PV module energy yield prediction », *29th Eur. PV Sol. Energy Coference Exhib.* 

[6] R. P. Kenny, E. D. Dunlop, H. A. Ossenbrink, et H. Müllejans, « A practical method for the energy rating of c-Si photovoltaic modules based on standard tests », *Prog. Photovolt. Res.* 

[7] E. Lorenzo, « Energy collected and delivered by PV modules », *Handb. Photovolt. Sci. Eng. Chapitre*, vol. 22, p.

[8] W. De Soto, S. A. Klein, et W. A. Beckman, « Improvement and validation of a model for photovoltaic array performance », *Sol. Energy*, vol.

1, p. 78-88, 2006.

[9] S. Dey, M. K. Lakshmanan, et B. Pesala, « Optimal solar tree design for

2, p. 155-166, 2006.

1, p. 23, 2017.

**References**

4, p. 257-261, 2014.

*Amst. Neth.*, 2014.

*Appl.*, vol. 14, no

984-1042, 2011.

*Influence of the Incidence Angle Modifier and Radiation as a Function of the Module… DOI: http://dx.doi.org/10.5772/intechopen.96160*
