Experimental investigation of solar hydrogen production PV/PEM electrolyser performance in the Algerian Sahara regions

This paper presents experimental results on the solar photovoltaic/PEM water electrolytes system performance in the Algerian Sahara regions. The first step is to present a photovoltaic module characterization under different conditions then validate the results by comparing the measured and calculat...

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Bibliographic Details
Published in:International journal of hydrogen energy 2021-08, Vol.46 (59), p.30524-30538
Main Authors: Khelfaoui, N., Djafour, A., Ghenai, C., Laib, I., Danoune, M.B., Gougui, A.
Format: Article
Language:English
Subjects:
Characterization
PEM Electrolyser
Performance analysis
PV module
Solar energy
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Summary:This paper presents experimental results on the solar photovoltaic/PEM water electrolytes system performance in the Algerian Sahara regions. The first step is to present a photovoltaic module characterization under different conditions then validate the results by comparing the measured and calculated values. The main objective of this study is to develop a parametric study on the system performance (open-circuit voltage Voc, short circuit current Is, fill factor FF, maximum power Pm and the efficiency η) under hot climate conditions (Ouargla, Algeria). The ambient temperature effects and solar radiation on the solar PV performance characteristics were investigated using modeling and simulation analysis as well as experimental studies. The results show that the root mean squared error (RMSE) error of the currents and voltages and the mean bias error (MBE) are respectively 0.71%, 0.37% and 0.12%, 0.15%. The relative errors in the current and the voltage are respectively 0.83%–1.76%, and −0.58% to 0.83%. The second part provide some general characteristics concerning the indirect coupling of a lab scale proton exchange membrane (PEM) water electrolyser (HG60) powered by a set of our photovoltaic panels. Experimental results provide practical information for the modules and the electrolysis cells by the indirect coupling. The weather conditions effect on hydrogen production from the electrolyser was also investigated. The results showed a high hydrogen production of 284 L in one day for 08 h of running and the electrolyser power efficiency with solar PV system was between 18 and 40%. •PV model execution/validated by experimental tests with 0.58%,0.83% error.•Estimation of the temperature effect on the PV parameters experimentally.•Investigation PV/PEM system in indirect coupling got 284 L of H2.•Electrolyser (PEM)/PV system performance was examined Experimental for one day.•PMU make the system run by almost constant current, which increases the stability.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2020.11.193