Open Access Open Access  Restricted Access Subscription or Fee Access

Design and Simulation of 10kw Solar Power Plant under Disparate Climatic 3d Conditions

A. Mohankumar, G. Vijayagowri

Abstract


To maximize the power generation from a limited area is one of the major concern due to increased land cost and unavailability of lands in rural areas. The solar PV module directly converts the incident solar radiations into useful electrical energy. The variation of temperature and solar irradiance are the major factors which affect the performance of the solar PV module. The shading on solar PV modules reduces the life span of the system as well as reduce the performance of the system. They different arrangements of solar PV modules are done on a standalone system. In this work, the maximum generation was obtained from a three-layer solar PV system with the dual axis tracking system. By this arrangement reduce the space requirement to 68% to generate maximum energy.


Keywords


Electricity, Grid-Connected, Solar PV System, Performance Ratio, PVSYST Software, Without Shading – Modelling - Simulation

Full Text:

PDF

References


. Ali chikh (2015), “An optimal Maximum Power Point Tracking Algorithm for PV systems with Climatic Parameters Estimation”, IEEE Trans.Vol 6, No.2, pp.644-652.

. Andre Mermoud (2013), “Partial Shadings on PV Arrays by Pass Diode Benefits Analysis”, IEEE Trans.Vol.3, no.20 pp.1-10.

. Eftichios Koutroulis (2011), “Development of a microcontroller Based Photovoltaic Maximum Power Point Tracking Control System”, IEEE Trans. Vol 16, no.1, pp.46-56.

. Jyh shing (2013), “Assessment of the incremental conductance maximum power point tracking algorithm”, IEEE Trans Vol. 12, pp.1-10.

. K.L Lian(2014), “A Maximum Power Point Tracking Method Based on Perturb And Observe Combined With Particle Swarm Optimization”, IEEE Trans Vol.4 no.2 pp.626-633.

. Mermoud.A (2014), “Optimization of Row Arrangement in PV System Shading Loss Evaluations According to Module Positioning and Connexions”. IEEE Trans. Vol 13, no.2 pp.20-41.

. Mohammed.A Elgendy (2013), “the incremental conductance maximum power point tracking algorithm”, IEEE Trans Vol.11, pp.101-110.

. Nicola Femia (2015), “Optimization of Perturb and Observe Maximum Power Point Tracking Method”, IEEE TransVol.20, no.4, pp.963-973.

. Trishan Esram (2015), “Comparison of Photovoltaic array maximum power point Tracking Techniques”, IEEE Trans .Vol.22 no.2, pp.439-449.

. Yoash Levron (2013), “Maximum Power Point Tracking Employing Sliding Mode Control”, IEEE Trans. Vol.60, no.3, pp.724-732.




DOI: http://dx.doi.org/10.36039/AA032017002.

Refbacks

  • There are currently no refbacks.


Creative Commons License
This work is licensed under a Creative Commons Attribution 3.0 License.