YACINE Benchenina
ياسين بن شنينة
yacine.benchenina@univ-msila.dz
0673574205
- DEPARTEMENT OF: ELECTRICAL ENGINEERING
- Faculty of Technology
- Grade PHd
About Me
Science et Technologies
Filiere
énergies renouvelables
Location
Khemis miliana, Khemis miliana
Aïn Dfla, ALGERIA
Code RFIDE- 1999-02-20 00:00:00
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YACINE Benchenina birthday
- 2024-12-09
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2024-12-09
Enhancing the Performance of Grid-Connected Photovoltaic Systems Through Storage Integration: A Techno-Economic and Environmental Study
Enhancing the Performance of Grid-Connected Photovoltaic Systems Through Storage Integration: A Techno-Economic and Environmental Study
Citation
ABDERRAHIM Zemmit , Yacine Benchenina , ,(2024-12-09), Enhancing the Performance of Grid-Connected Photovoltaic Systems Through Storage Integration: A Techno-Economic and Environmental Study,1st National Conference of Advanced Systems in Electrical Engineering (NCASEE'24),,University M'Hamed Bougara of Boumerdes, Algeria.
- 2024-12-09
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2024-12-09
Utilizing Excess Solar Energy for Green Hydrogen Production in Algeria: A Feasibility Study
Utilizing Excess Solar Energy for Green Hydrogen Production in Algeria: A Feasibility Study
Citation
ABDERRAHIM Zemmit , Yacine Benchenina , ,(2024-12-09), Utilizing Excess Solar Energy for Green Hydrogen Production in Algeria: A Feasibility Study,1st National Conference of Advanced Systems in Electrical Engineering (NCASEE'24),,University M'Hamed Bougara of Boumerdes, Algeria.
- 2024-04-22
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2024-04-22
A new improved of incorporating photovoltaic energy into the production of green hydrogen
The integration of renewable energies, particularly photovoltaic energy, into green hydrogen production presents a highly promising prospect in the energy sector. Nonetheless, these energy sources face challenges due to their inherent instability and susceptibility to various atmospheric factors such as temperature and illumination. Therefore, it's imperative to tackle these challenges before renewable energy can be widely adopted as a primary source in hydrogen production. To address this, we propose constructing an autonomous photovoltaic system using MATLAB software. This system will employ a DC-DC boost converter to connect the PV array to the load. Furthermore, to enhance the efficiency of photovoltaic power generation, we will implement the perturbation and observation maximum power point tracking (MPPT) approach. The research endeavor extends towards integrating this optimized system with an electrolysers developed a sophisticated electrolyte model utilizing MATLAB Simulink software, paving the way for hydrogen gas production.
Citation
ABDERRAHIM Zemmit , ADMIN Admin , Yacine Benchenina , , (2024-04-22), A new improved of incorporating photovoltaic energy into the production of green hydrogen, Diagnostyka, Vol:25, Issue:2, pages:1-9, Diagnostyka
- 2023-11-28
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2023-11-28
Advanced Electrolyzer Modelisation for Green Hydrogen Production
In this work, we designed an advanced electrolyzer using Matlab Simscape. The main goal is to connect this component with a renewable energy source such as photovoltaic energy, wind energy, or a hybrid between them. And finding new technologies to control energy conversion in order to establish an integrated and much optimised system for the production of green hydrogen.
Citation
Yacine Benchenina , ABDERRAHIM Zemmit , Bouzaki Mohammed Moustafa, ,(2023-11-28), Advanced Electrolyzer Modelisation for Green Hydrogen Production,International Conference on Environmental Engineering and Renewable Energy (ICENVERE - 23),Milan, Italy
- 2023-05-13
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2023-05-13
New MPPT Control Methods for Grid Connected PV System to Produce Green Hydrogen
In this document, we used Matlab 2022 software to design a 50 kW PV array and connect it to the grid with a single stage power converter. The power control strategy uses a combination of MPPT (P&O) and inverter control algorithms. For this reason, we changed the power control algorithm for current control. The next work is to connect this system to electrolyzers and fuel cells and find new optimization methods for grid-connected systems to produce green hydrogen.
Citation
ABDERRAHIM Zemmit , Yacine Benchenina , , (2023-05-13), New MPPT Control Methods for Grid Connected PV System to Produce Green Hydrogen, International Journal of Advanced Natural Sciences and Engineering Researches, Vol:7, Issue:4, pages:217-223, ijanser
- 2023-05-04
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2023-05-04
Integration of Renewable Energy in Green Hydrogen Generation
The inclusion of renewable energies, especially photovoltaic energy in the green hydrogen production is a very promising idea in the field of energy. However, these sources are unstable and susceptible to a variety of atmospheric influences, including temperature and illumination, for this reason, we must address these issues before we can adopt renewable energy as a major source in hydrogen production. Using Matlab software, we will construct an autonomous photovoltaic system that uses a DC-DC boost converter to link the PV array to the load. To improve the efficiency of the photoelectric power, we will utilize the perturbation and observation MPPT approach.
Citation
ABDERRAHIM Zemmit , Yacine Benchenina , , (2023-05-04), Integration of Renewable Energy in Green Hydrogen Generation, International Journal of Advanced Natural Sciences and Engineering Researches, Vol:7, Issue:4, pages:143-147, ijanser
- 2023-05-02
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2023-05-02
New MPPT Control Methods for Grid Connected PV System to Produce Green Hydrogen
in 1st International Conference on Recent Academic Studies ICRAS 2023 on May 2-4, 2023 in Konya, Turkey
Citation
ABDERRAHIM Zemmit , Yacine Benchenina , ,(2023-05-02), New MPPT Control Methods for Grid Connected PV System to Produce Green Hydrogen,in 1st International Conference on Recent Academic Studies ICRAS 2023 on May 2-4, 2023 in Konya, Turkey,Konya, Turkey
- 2023-04-18
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2023-04-18
Integration of Renewable Energy in Green Hydrogen Generation
Integration of Renewable Energy in Green Hydrogen Generation PRESENTATION TYPE Oral
Citation
ABDERRAHIM Zemmit , Yacine Benchenina , ,(2023-04-18), Integration of Renewable Energy in Green Hydrogen Generation,1st International Conference on Scientific and Innovative Studies ICSIS 2023 on April 18-20, 2023 in Konya, Turkey,Konya, Turkey