Grid Connected Photovoltaic Systems

Authors

  • HAIDAR ABUGOUKH O.M. Beketov NUUE

Keywords:

Grid system, Photovoltaic (PV), Simulink model. ‎

Abstract

Limited fossil energy and increased air pollution have spurred researchers to develop clean energy sources. One of these sources is the photovoltaic (PV) power generation system, which is a clean, quiet and an efficient method for generating electricity, the main objective of this work is to study the solar PV systems and model the Grid-connected solar power system using Matlab simulation.

References

‎[1]‎ Angelo Baggini University of Bergamo.“Handbook of Power ‎Quality” , ‎

‎[2]‎ Bajpai P, Kumar S (2011) Design, Development and ‎Performance Test of an Automatic Two-Axis Solar Tracker ‎System. India Conference (INDICON), 2011 Annual IEEE 1-‎‎6.‎

‎[3]‎ Central Electricity Regulatory Commission (2015) CERC, New ‎Delhi.‎

‎[4]‎ Gan CK, Tan PH, Khalid S (2013) System Performance ‎Comparison Between Crystalline and Thin-Film Technologies ‎under Different Installation Conditions. IEEE Conference on ‎Clean Energy and Technology 362-367.‎

‎[5]‎ Ahmed MM (2003) Design and Proper Sizing of Solar Energy ‎Schemes for Electricity Production in Malaysia. National ‎Power and Energy Conference (PECon) Proceedings 268-271.‎

‎[6]‎ Singh VP, Ravindra B, Vijay V, Bhatt MS (2014) A ‎comparative performance analysis of C-Si and A-Si PV based ‎rooftop grid tied solar photovoltaic systems in Jodhpur. 3rd ‎International Conference On Renewable Energy Research And ‎Applications 250-255..‎

‎[7]‎ D.V. Tugay, Yu.P. Kolontaevsky, S.V. Kotelevets, Ye.S. ‎Savchuk “SOLAR POWER PLANT OPERATION ‎MODELING IN SMART GRID ELECTRICITY SUPPLY ‎SYSTEM “-‎

‎[8]‎ Ismail H. Altas and Adel M. Sharaf.“Solar Energy and PV ‎Systems.‎

‎[9]‎ Endo E, Kurokawa K (1994) Sizing Procedure For ‎Photovoltaic Systems. IEEE 1:1196-1199. ‎

‎[10]‎ ‎ Zolkapli M, Al-Junid SAM, Othman Z, ManutA, ‎MohdZulkifli MA (2013) HighEfficiency Dual-Axis Solar ‎Tracking Developement using Arduino. International ‎Conference on Technology, Informatics, Management, ‎Engineering and Environment 23-26. ‎

‎[11]‎ Solar (2012) Government of India, Ministry of New and ‎Renewable Energy. Alsayid, B. and Jallad, J. “Modelling and ‎Simulation of Photovoltaic Cells/Modules/ Arrays’.‎

‎[12]‎ Oluwaseun M. Akeyo “PHOTOVOLTAIC SYSTEMS ‎INCORPORATING BATTERY ENERGYSTORAGE ”.‎

‎[13]‎ Duffie JA, Beckman WA (2013) Solar Engineering of Thermal ‎Processes (2nd edn). New York

‎[14]‎ Sulaiman SA, Hussain HH, NikLeh NSH, Razali MSI (2011) ‎Effects of Dust on the Performance of PV Panels. World ‎Academy of Science, Engineering and Technology 5: 2028-‎‎2033.‎

‎[15]‎ Skoplaki E, Boudouvis AG, Palyvos JA (2008) A simple ‎correlation for the operating temperature of photovoltaic ‎modules of arbitrary mounting. Solar Energy Materials and ‎Solar Cells 92:1393-1402.‎

‎[16]‎ Green MA (1982) Solar cells: operating principles, technology ‎and system applications. Prentice-Hall, Inc., Englewood ‎Cliffs, NJ, USA.‎

‎[17]‎ Cambell M (2008) The Drivers of the Levelized Cost of ‎Electricity for UtilityScale Photovoltaics. Sun Power.‎

‎[18]‎ Solar Radiation Monitoring Laboratory, University of Oregon.‎

‎[19]‎ Tyagi AP (1988) Solar Radiant Energy Over India. Indian ‎Meteorological Department, India.‎

‎[20]‎ Shongwe S, Hanif M (2015) Comparative Analysis of ‎Different Single-Diode PV Modeling Methods. IEEE Journal ‎of Photovoltaics 5: 938-946.‎

‎[21]‎ ‎. Villalva MG, Gazoli JR, Filho ER (2009) Comprehensive ‎Approach to Modeling and Simulation of Photovoltaic Arrays. ‎IEEE Transactions On Power Electronics 24: 1198-1208.‎

‎[22]‎ W.Christopher,C. Gopinath, C. Yaashuwanth-Grid Connected ‎Solar PV System with SEPIC Converter Compared with ‎Parallel Boost Converter Based MPPT-2014.‎

‎[23]‎ M.Shajibul-Al-Rajib.K.F.Ahmed- A new multi-hybrid power ‎system for grid connected area(Solar-Compressed Air Energy ‎Storage-Grid power)-July 2018‎

Downloads

Published

2019-12-23

How to Cite

ABUGOUKH, H. (2019). Grid Connected Photovoltaic Systems. Lighting Engineering & Power Engineering, 2(52), 48–53. Retrieved from https://lepe.kname.edu.ua/index.php/lepe/article/view/388

Issue

Vol. 2 No. 52 (2018): Lighting engineering and power engineering

Section

Articles

License

The authors that are published in this journal agree with the following terms:

  • The authors reserve the right of authorship of his work and pass to the journal the right of first publication of this work is licensed under a Creative Commons Attribution License, which allows others to freely distribute published work with reference to authors of original works and works first published in this journal.
  • The authors have the right to enter into a separate additional agreement for non-exclusive distribution of work in the form in which it was published in the magazine (for example, to place work in electronic storage agencies or publish as part of the monograph), providing the reference to the first publication in this journal.
  • Journal policy allows and encourages the placement by the authors on the Internet (eg, in storage facilities or personal websites) the manuscript of the works before the submission of the manuscript to the editor as well as during its editorial processing, as it contributes to productive scientific discussion and has a positive impact on efficiency and dynamics citing published work (see. The Effect of Open Access).