Modeling of a PV Array and Implementation of an Efficient MPPT Based ControlMechanism in Stand-Alone Photovoltaic Systems

Aarti Anil Ahlawat*, Diksha Gupta**, S. K. Gupta***
* PG Scholar, Deen Bandhu Chotu Ram University of Science and Technology, Sonepat, Haryana, India.
** Project Engineer, Wipro Technology, Greater Noida, India.
*** Professor, Department of Electrical Engineering, DCR University of Science and Technology, Sonepat, Haryana, India..
Periodicity:March - May'2017
DOI : https://doi.org/10.26634/jcir.5.2.13665

Abstract

This paper provides a brief idea about modeling of Solar Photovoltaic systems. This paper presents simulation model of PV array which is used to evaluate the electrical performance of PV array with respect to changes in temperature and irradiation. The proposed paper includes design and simulation of a 10 kW Stand-alone solar photovoltaic system. The equivalent circuit model of a cell is simulated using Matlab/Simulink to examine a typical 235 W solar module and 10 kW solar PV array. In this paper, an MPPT tracker using modified Adaptive P & O algorithm is proposed to improve the efficiency of solar photovoltaic system. The algorithm identifies a particular duty ratio at which the DC-DC converter should operate to maximize the power output. The proposed model is designed with the help of Matlab/Simulink. The data provided by the manufacturer are used to calculate the non-linear parameters. The characteristic of the proposed model is compared with reference PV module. The 230 W PV modules manufactured by Sun module SW 230 poly/Version 2.0 and 2.5 Frame are used as a reference. The large solar PV array system is modeled and simulated using the data provided in this module. The proposed model results in improved performance of solar photovoltaic systems.

Keywords

Photovoltaic Array, MPPT Control Algorithm, Boost Converter

How to Cite this Article?

Ahlawat, A., and Gupta, D. (2017). Modeling of a PV Array and Implementation of an Efficient MPPT Based Control Mechanism in Stand-Alone Photovoltaic Systems. i-manager’s Journal on Circuits and Systems, 5(2), 51-61. https://doi.org/10.26634/jcir.5.2.13665

References

[1]. Abdulkadir, M., Samosir, A. S., & Yatim, A. H. M. (2012). Modeling and simulation based approach of photovoltaic system in simulink model. ARPN Journal of Engineering and Applied Sciences, 7(5), 616-623.
[2]. Anurag, R., Awasthi, B., Dixit, A., and Dwivedi, C. K. (2016). Modeling of Solar Photovoltaic Module and Parameter Variation Effect using MATLAB/Simulink. In Control, Computing, Communication and Materials (ICCCCM), 2016 International Conference on (pp. 1-6). IEEE.
[3]. Attou, A., Massoum, A., & Saidi, M. (2014). Photovoltaic power control using MPPT and boost converter. Balkan Journal Of Electrical and Computer Engineering, 2(1), 23- 27.
[4]. Dheeban, S. S. & Kamraj, V. (2016). Grid Integration of 10kW Solar Panel. In Electrical Energy Systems (ICEES), 2016 3rd International Conference on (pp. 257-266). IEEE.
[5]. ElMehdi, A., Johnson, B., Abugreb, M., & Parker, W. (2016). Analysis, Modelling and Control of a Standalone th Photovoltaic Generating System. 4 International Conference on Engineering and Information.(pp. 1-6), Hammamet.
[6]. Ghosh, S. K., Shawon, M. H., Rahman, A., & Abdullah, R. (2013). Modeling of PV array and analysis of different parameters. International Journal of Advancements in Research & Technology, 2(5), 358-363.
[7]. Gupta, S. K., & Bansal, R. (2014). ATC in Competitive Electricity Market Using TCSC. International Journal of Electrical, Electronic Science and Engineering, 8(2), 308- 311.
[8]. Kalpana, C., Babu, C. S., & Kumari, J. S. (2013). Design and Implementation of different MPPT Algorithms for PV System. International Journal of Science, Engineering and Technology Research (IJSETR), 2(10), 1926-1933.
[9]. Keshavani, K., Joshi, J., Trivedi, V., & Bhavsar, M. (2014). Modelling and Simulation of Photovoltaic Array using Matlab/Simulink. International Journal of Engineering Development and Research, 2(4), 3742-3751.
[10]. Lo, D. K. P., Tolia, N. D., Ajudia, H. A. (2014). Study of Boost Converter with Inverter for Standalone Power Applications. International Journal of Engineering Research and Technology (IJERT), 3(5), 805-809.
[11]. Lueangamornisiri, T., Thongpul, K., Chalarmyanot, K., & Warit, W. Design and Development of a Standalone Solar Energy Harvesting System by MPPT and Quick Battery Charging. In Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTIth CON), 2016 13 International Conference on (pp. 1-5). IEEE.
[12]. Mahapatro, S. K. (2013). Maximum Power Point Tracking (MPPT) of Solar Cell using Buck Boost Converter. International Journal of Engineering Research and Technology, 2(5), 1810-1821.
[13]. Pandiarajan, N., & Muthu, R. (2011, January). Mathematical modeling of photovoltaic module with st Simulink. In Electrical Energy Systems (ICEES), 2011 1 International Conference on (pp. 258-263). IEEE.
[14]. Said, S., Massoud, A. M., Benammar, M., Ahmed, S. (2012). A Matlab/Simulink Based Photovoltaic Array Model employing SimPower Systems. Journal of Energy and Power Engineering, 6(12), 1965-1975.
[15]. Sinha, D., Das, A. B., Dhak, D. K., & Sadhu, P. K. (2014, January). Equivalent circuit configuration for solar PV cell. In st Non Conventional Energy (ICONCE), 2014 1 International Conference on (pp. 58-60). IEEE.
[16]. Sunmodule SW 230 poly/ Version 2.0 and 2.5 Frame. www.solarworld.com. SW-01-5012US 04-2011 US.
[17]. Vaibhav, S., Sinha, A. K., & Naveen (2015). Performance Study of Stand Alone PV Generation System. International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, 4(11), 8710- 8715.
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