MODELING AND PERFORMANCE ANALYSIS OF TWO DIFFERENT  INVERTER TOPOLOGIES FOR INTEGRATION OF 180 kW SOLAR  PHOTOVOLTAIC (SPV) SYSTEM TO DISTRIBUTION GRID AT  RUBESA

Durga Prasad Dhakal; Dendup Namgyel; Karma Yangden; Praveen Ghalley; Namgay Tenzin

MODELING AND PERFORMANCE ANALYSIS OF TWO DIFFERENT INVERTER TOPOLOGIES FOR INTEGRATION OF 180 kW SOLAR PHOTOVOLTAIC (SPV) SYSTEM TO DISTRIBUTION GRID AT RUBESA

Authors

Durga Prasad Dhakal Electrical Engineering Department, College of Science and Technology, Royal University of Bhutan
Dendup Namgyel Electrical Engineering Department, College of Science and Technology, Royal University of Bhutan
Karma Yangden Electrical Engineering Department, College of Science and Technology, Royal University of Bhutan
Praveen Ghalley Electrical Engineering Department, College of Science and Technology, Royal University of Bhutan
Namgay Tenzin Electrical Engineering Department, College of Science and Technology, Royal University of Bhutan

Keywords:

Fuzzy logic, Maximum power point tracking (MPPT), Mebership function, Solar Photovaltic System (SPV), Simulink, Boost converter, Fuzzy set, Multilevel, Sinusoidal pulse width modulation

Abstract

Solar photovoltaic system (SPV) is one of the clean and environment friendly renewable energy sources which is deployed by many power utilities and domestic households. The solar photovoltaic system (SPV) exhibits an intermittent nature of power source, its output power never remains constant throughout the day. Thus maxi[1]mum power point tracking method is implemented to minimize the power variation. For the grid connected SPV system, grid-tied inverter is important component. The nature of output current and voltage depends on the circuit topology of inverter. Thus the behavior of PV array and inverter is analysed by modeling and simu[1]lating in MATLAB/Simulink software. Hence this paper presents on modeling and performance analysis of grid-tied sinewave and five-level multilevel inverter with fuzzy logic-based maximum power point tracking using MATLAB/Simulink software. The nature of inverter output voltage and current is analysed and compared for five different performance parameters.

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Published

2022-12-23

How to Cite

Dhakal, D. P., Namgyel, D., Yangden, K., Ghalley, P., & Tenzin, N. (2022). MODELING AND PERFORMANCE ANALYSIS OF TWO DIFFERENT INVERTER TOPOLOGIES FOR INTEGRATION OF 180 kW SOLAR PHOTOVOLTAIC (SPV) SYSTEM TO DISTRIBUTION GRID AT RUBESA. Zorig Melong- A Technical Journal of Science, Engineering and Technology, 7(1), 1–9. Retrieved from https://journal.cst.edu.bt/index.php/zm/article/view/37

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Issue

Vol. 7 No. 1 (2022): Volume 7 Issue 1

Section

Research Article

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