i-manager Publications

Different MPPT Techniques in Solar Photovoltaic System: A Comprehensive Review

Shweta Singh*, Awadhesh Kumar**

* PG Scholar, Department of Electrical Engineering, Madan Mohan Malviya University of Technology, Gorakhpur, India

** Assistant Professor, Department of Electrical Engineering, Madan Mohan Malviya University of Technology, Gorakhpur, India.

Periodicity:November - January'2016
DOI : https://doi.org/10.26634/jic.4.1.3777

Abstract

Among all the renewable energy sources, PV (Photovoltaic) solar energy is considered as the most auspicious inexhaustible resources. In recent years, due to acute energy crisis, the demand for renewable energy sources is high. Maximum Power Point Tracking (MPPT) for the solar energy is required as the power output of the solar system varies with variation in solar irradiance and temperature. So to extract peak power point from PV system, various MPPT algorithmic rule are utilized. In this paper, the authors have discussed various aspects of these algorithms. This paper presents, a literature survey of various MPPT algorithms in solar photovoltaic system.

Keywords

Model Predictive Control, Receding Horizon, Manipulated Variables, Constraints.

How to Cite this Article?

Singh, S., and Kumar, A. (2016). Different MPPT Techniques in Solar Photovoltaic System: A Comprehensive Review. i-manager’s Journal on Instrumentation and Control Engineering, 4(1), 32-39. https://doi.org/10.26634/jic.4.1.3777

References

[1]. Ahmed El Khateb, Nasruddin Abd Rahim, Jeyraj Selvaraj and Mohammad Nasir Uddin, (2014). “Fuzzy- Logic-Controller-Based SEPIC Converter for Maximum Power Point Tracking”. IEEE Transactions on Industry Applications., Vol. 50, No. 4, pp. 1-9.

[2]. N. Femia, G. Petrone, G. Spagnuolo, and M. Vitelli, (2005). “Optimization of Perturb and Observe Maximum Power Point Tracking Method”. IEEE Transactions Power Electron., Vol. 20, No. 4, pp. 963–973.

[3]. S. Park, S.-Y. Kim, S.-J.Jang, G.-H.Kim, H.-R.Seo, M. Park, and I.-K. Yu, (2009). "Hardware Implementation of Optimization Technique Based Sensorless MPPT Method for Gridconnected PV Generation System". International Conference on Electrical Machines and Systems, pp. 1-6.

[4]. K. Ishaque, Z. Salam, and G. Lauss, (2014). "The Performance of Perturb and Observe and Incremental Conductance Maximum Power Point Tracking Method Under Dynamic Weather Conditions". Applied Energy, Vol. 119, pp. 228-236,.

[5]. Hadeed Ahmed Sher, Ali Faisal Murtaza, Abdullah Noman, Khaled E. Addoweesh, Kamal Al-Haddad, and Marcello Chiaberge, (2015). “A New Sensorless Hybrid MPPT Algorithm Based on Fractional Short-Circuit Current Measurement and P&O MPPT”. IEEE Transactions on Sustainable Energy, Vol. 6, No. 4, pp.1426-1434.

[6]. Andres. A. Ovalle, , H. R. Chamorro,and G. Ramos, (2012). “Improvements to MPPT for PV Generation Based on Mamdani and Takagi-Sugeno Fuzzy Techniques”. IEEE Transactions on Industrial Application, Vol. 7, No. 4, pp.1-6.

[7] T. Hiyama, S. Kouzuma, T. Imakubo, and T. H. Ortmeyer, (1995). “Evaluation of Neural Network Based Real Time Maximum Power Tracking Controller for PV System”. IEEE Transaction on Energy Conversion, Vol. 10, pp. 543–548.

[8] Bose, B. K., Szczeny, P. M. and Steigerwald, R. L., (1985). “Microcomputer Control of a Residential Photovoltaic Power Conditioning System”. IEEE Transactions on Industrial Electronics, Vol. 21, pp. 1182- 1191.

[9]. Koutroulis, E., Kalaitzakis, K. and Voulgaris, N. C., (2001). “Development of a Microcontroller-Based Photovoltaic Maximum Power Point Tracking Control System”. IEEE Transactions on Power Electronics, Vol. 16, pp. 46-54.

[10]. Kuo, Y. C., Liang, T. J. and Chen, F. C., (2001). “Novel Maximum-Power-Point-Tracking Controller for Photovoltaic Energy Conversion System”. IEEE Transactions on Industrial Electronics, Vol. 48, pp. 594-601.

[11]. G.C Hsieh, C.Y. Tsai, and H.I. Hsieh, (2012). “Photovoltaic Power-Increment Aided Incremental- Conductance Maximum Power Point Tracking Controls,” in Proceedings of IEEE International Conference on Power Electronics for Distributed Generation Systems, pp. 542- 549.

[12]. Ahmad Al Nabulsi and Rached Dhaouadi, (2012). “Efficiency optimization of a DSP-based Standalone PV System using Fuzzy Logic and Dual MPPT Control”. IEEE Transactions on Industrial Informatics, Vol. 8, No. 3, pp. 1551-3203.

[13]. D. Driankov, H. Hellendoorn, and M. Reinfrank, nd (1996). An Introduction to Fuzzy Control, 2 Ed. New York, NY, USA: Springer Verlag, ISBN: 10: 3540606912.

[14]. M. Elgendy, B. Zahawi, and D. Atkinson, (2012). “Assessment of Perturb and Observe MPPT Algorithm Implementation Techniques for PV Pumping Applications”. IEEE Transaction on Sustain Energy, Vol. 3, No. 1, pp. 21–33.

[15] Bader N. Alajmi, Khaled H. Ahmed, Stephen J. Finney, and Barry W. Williams, (2011). “Fuzzy-Logic-Control Approach of a Modified Hill-Climbing Method for Maximum Power Point in Microgrid Standalone Photovoltaic System”. IEEE Transactions on Power Electronics, Vol. 26, No. 4, pp.0885-8993.

[16]. L Wuhuaand H. Xiangning, (2011). “Review of Nonisolated High-step-up DC/DC Converters in Photovoltaic Grid-connected Applications”. IEEE Transactions on Industrial Electronics, Vol. 58, No. 4, Pp. 1239–1250.

[17]. T.-F. Wu, C.-H.Chang, and Y.-H. Chen, (2000). “A Fuzzylogic- controlled Single-stage Converter for PV-powered Lighting System Applications”. IEEE Transactions on Industrial Electronics, Vol. 47, No. 2, pp. 287–296.

[18] Mummadi Veerachary, Tomonobu Senjyu, and Katsumi Uezato, (2003). “Neural-Network-Based Maximum- Power-Point Tracking of Coupled-Inductor Interleaved- Boost-Converter-Supplied PV System Using Fuzzy Controller”. IEEE Transactions on Industrial Electronics, Vol. 50, No. 4, pp. 749-758.

Different MPPT Techniques in Solar Photovoltaic System: A Comprehensive Review

Abstract

Keywords

How to Cite this Article?

References

If you have access to this article please login to view the article or kindly login to purchase the article

Purchase Instant Access

Options for accessing this content:

	North Americas,UK, Middle East,Europe		India	Rest of world
	USD	EUR	INR	USD-ROW
Online	200	35	35	200	15
Pdf	35	35	200	20
Pdf & Online	35	35	400	25