Iqbal, Tariq and Ozogbuda, Japhet Chikanka (2021) Dynamic Simulation of an Off Grid Photovoltaic System with backup battery and generator for a Remote house in Nigeria. In: 30th IEEE NECEC Conference, November 18, 2021, St. John's, Newfoundland and Labrador.
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Abstract
This paper presents the simulation of an off grid Photovoltaic (PV) system with battery and generator backup for a house located in the remote areas of Edo State ,Nigeria. The case study is for a house with a peak load of 1.26kW and 3.4kWh daily energy consumption. The design was carried out using Homer Pro and simulation was performed in the Matlab Simulink software, the system is made up of 1.23kW PV comprised of 4 modules (325W, 2 in series, 2 in parallel), MPPT (maximum power point tracking), a DC –DC buck converter for stepping down the voltage, 4 batteries each of 12V, 350Ahr (48V, series connection), and a backup generator of 4.8kW. The system also incorporates a 1.6kW inverter which converts the output DC voltage from 48V to an equivalent AC. A step-up transformer connected directly to the inverter boosts the voltage from 48V AC to an output voltage of 220V AC for supply to the load. The dynamic simulation results and response to changing inputs are presented in this paper.
| Item Type: | Conference or Workshop Item (Paper) |
|---|---|
| URI: | http://research.library.mun.ca/id/eprint/15139 |
| Item ID: | 15139 |
| Keywords: | stand-alone solar PV, dynamic simulation, Matlab simulink, hybrid power systems, renewable energy |
| Department(s): | Engineering and Applied Science, Faculty of |
| Date: | 18 November 2021 |
| Date Type: | Completion |
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