Search results for: Z. Mokrani

Authors: Chijioke Okafor, Malik Maaza, Touhami Mokrani

Abstract:

Proton exchange membrane, PEM was developed and tested for potential application in fuel cell. Nafion was electrospun to nanofiber network with the aid of poly(ethylene oxide), PEO, as a carrier polymer. The matrix polymer was crosslinked with Norland Optical Adhesive 63 under UV after compacting and annealing. The welded nanofiber mat was characterized for morphology, proton conductivity, and methanol permeability, then tested in a single cell test station. The results of the fabricated nanofiber membrane showed a proton conductivity of 0.1 S/cm at 25 oC and higher fiber volume fraction; methanol permeability of 3.6x10^-6 cm2/s and power density of 96.1 and 81.2 mW/cm2 for 5M and 1M methanol concentration respectively.

Keywords: fuel cell, nafion, nanofiber, permeability

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Authors: C. N. Okafor, M. Maaza, T. A. E. Mokrani

Abstract:

A proton exchange membrane has been developed for Direct Methanol Fuel Cell (DMFC). The nanofiber network composite membranes were prepared by interconnected network of Nafion (perfuorosulfonic acid) nanofibers that have been embedded in an uncharged and inert polymer matrix, by electro-spinning. The spinning solution of Nafion with a low concentration (1 wt. % compared to Nafion) of high molecular weight poly(ethylene oxide), as a carrier polymer. The interconnected network of Nafion nanofibers with average fiber diameter in the range of 160-700nm, were used to make the membranes, with the nanofiber occupying up to 85% of the membrane volume. The matrix polymer was cross-linked with Norland Optical Adhesive 63 under UV. The resulting membranes showed proton conductivity of 0.10 S/cm at 25°C and 80% RH; and methanol permeability of 3.6 x 10-6 cm2/s.

Keywords: composite membrane, electrospinning, fuel cell, nanofibers

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Authors: Mokrani Zahra, Oubelaid Adel, Rekioua Djamila, Serir Chafia, Kakouche Khoudir, Rekioua Toufik, Belhoul Talit

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In this paper, a hybrid approach combining fuzzy logic-based Maximum Power Point Tracking (MPPT) with a battery-supercapacitor system is proposed to improve photovoltaic system performance. This method increases overall efficiency and extends the lifespan of the energy storage components. By optimizing energy capture and management, the system becomes more adaptive, reliable, and effective in harnessing solar power. The integration of fuzzy logic and hybrid storage represents a significant advancement in maximizing the potential of renewable energy technologies, providing a more sustainable and efficient solution for solar energy applications. This innovation enhances the effectiveness of solar power systems in real-world scenarios.

Keywords: Photovoltaic system, fuzzy logic control, energy management, hybrid storage

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Authors: Mokrani Mohamed Amine

Abstract:

In this paper, we have implemented successive interference cancellation algorithms in the 5G downlink. We have calculated the maximum throughput in Frequency Division Duplex (FDD) mode in the downlink, where we have obtained a value equal to 836932 b/ms. The transmitter is of type Multiple Input Multiple Output (MIMO) with eight transmitting and receiving antennas. Each antenna among eight transmits simultaneously a data rate of 104616 b/ms that contains the binary messages of the three users; in this case, the Cyclic Redundancy Check CRC is negligible, and the MIMO category is the spatial diversity. The technology used for this is called Non-Orthogonal Multiple Access (NOMA) with a Quadrature Phase Shift Keying (QPSK) modulation. The transmission is done in a Rayleigh fading channel with the presence of obstacles. The MIMO Successive Interference Cancellation (SIC) receiver with two transmitting and receiving antennas recovers its binary message without errors for certain values of transmission power such as 50 dBm, with 0.054485% errors when the transmitted power is 20dBm and with 0.00286763% errors for a transmitted power of 32 dBm(in the case of user 1) as well as with 0.0114705% errors when the transmitted power is 20 dBm also with 0.00286763% errors for a power of 24 dBm(in the case of user2) by applying the steps involved in SIC.

Keywords: 5G, NOMA, QPSK, TBS, LDPC, SIC, capacity

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Authors: D. Rekioua, Z. Mokrani, M. Mezzai, A. Oubelaid, K. Kakouche, T. Rekioua

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This work investigates the performances of a photovoltaic and wind-for-water pumping system designed to improve water accessibility in rural and agricultural areas, particularly within the Mediterranean region. By combining solar and wind energy, the system maximizes energy capture across diverse environmental conditions, addressing the intermittency challenges typically associated with standalone renewable energy sources. Through detailed simulations, the study evaluates the system's energy efficiency, water output, and operational reliability. The integration of advanced energy storage solutions and a fuzzy logic control strategy (FLC) further enhances the optimization of PV and wind power, ensuring consistent and efficient performance. This hybrid configuration not only stabilizes the system but also exemplifies the importance of renewable energy production and water management using techniques used to the unique climatic and geographical characteristics of the Mediterranean region. The results demonstrate that the hybrid system offers a sustainable and resilient solution for agricultural irrigation and potable water supply. It represents a reliable alternative for off-grid applications, contributing to the sustainable development of energy and water resources in remote and rural areas while addressing critical environmental and resource challenges in the Mediterranean context.

Keywords: photovoltaic system, wind turbine, water management, pumping water, agriculture areas

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Authors: Slimane Mokrani, Nabti El hafid

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Description of the subject: Currently, several efforts focus on the study of biodiversity, microbial biotechnology, and the use of ecological strategies. Objectives: The aim of this present work is to determine the functional diversity of bacteria in rhizospheric and non-rhizospheric soils of different plants. Methods: Bacteria were isolated from soil and identified based on physiological and biochemical characters and genotypic taxonomy performed by 16S rDNA and BOX-PCR. As well as the characterization of various PGPR traits. Then, they are tested for their effects on the stimulation of seed germination and the growth of Phaseolus vulgaris L. As well as their biological control activities with regard to the phytopathogenic bacterial isolate Xapf. Results and Discussion: The biochemical and physiological identification of 75 bacterial isolates made it possible to associate them with the two groups of fluorescent Pseudomonas (74.67%) and non-fluorescent Pseudomonas (25.33%). The identification by 16S rDNA of 27 strains made it possible to attribute the majority of the strains to the genus Pseudomonas (81.48%), Serratia (7.41%) and Bacillus (11.11%). The bacterial strains showed a high capacity to produce IAA, siderophores, HCN and to solubilize phosphate. A significant stimulation of germination and growth was observed by applying the Pseudomonas strains. Furthermore, significant reductions in the severity and intensity of the disease caused caused by Xapf were observed. Conclusion: The bacteria described in this present study endowed with different PGPR activities seem to be very promising for their uses as biological control agents and bio-fertilization.

Keywords: biofertilization, biological control, phaseolus vulgaris L, pseudomonas, Xanthomonas axonopodis pv. phaseoli var. fuscans and common blight

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Authors: Ihab Al-Mokrani

Abstract:

The Arabic heritage has two types of spoken rhetoric: the first type which al-Jaahiz calls “the rhetoric of the sign,” which means body language, and the rhetoric of silence which is of no less importance than the rhetoric of the sign, the speaker’s appearance and movements, etc. The second type is the spoken performance of utterances which bears written rhetoric arts like metaphor, simile, metonymy, etc. Rationale of the study: First: in spite of the factual existence of rhetorical phenomena in the Arabic heritage, there has been no contemporary study handling the spoken rhetoric in the Arabic heritage. Second: Arabic Civilization is originally a spoken one. Comparing the Arabic culture and civilization, from one side, to the Greek, roman or Pharaonic cultures and civilizations, from the other side, shows that the latter cultures and civilizations started and flourished written while the former started among illiterate people who had no interest in writing until recently. That sort of difference on the part of the Arabic culture and civilization created a rhetoric different from rhetoric in the other cultures and civilizations. Third: the spoken nature of the Arabic civilization influenced the Arabic rhetoric in the sense that specific rhetorical arts have been introduced matching that spoken nature. One of these arts is the art of concision which compensates for the absence of writing’s means of preserving the text. In addition, this interprets why many of the definitions of the Arabic rhetoric were defining rhetoric as the art of concision. Also, this interprets the fact that the literary genres known in the Arabic culture were limited by the available narrow space like poetry, anecdotes, and stories, while the literary genres in the Greek culture were of wide space as epics and drama. This is not of any contrast to the fact that some Arabic poetry would exceed 100 lines of poetry as Arabic poetry was based on the line organic unity, which means that every line could stand alone with a full meaning that is not dependent on the rest of the poem; and that last aspect has never happened in any culture other than the Arabic culture.

Keywords: Arabic rhetoric, spoken rhetoric, Arabic heritage, culture

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Authors: Mokrani Zahra, Kakouche Khoudir, Rekioua Djamila, Oubelaid Adel, Rekioua Toufik, Serir Chafiaa, Belhoul Talit

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This paper explores strategies to enhance energy efficiency, sustainability, and reliability through the integration of photovoltaic (PV) technologies, batteries, and fuel cells within hybrid energy systems. These systems capitalize on the intermittent availability of solar energy, the energy storage capabilities of batteries, and the flexible power generation of fuel cells. Photovoltaic panels convert sunlight into electrical energy, which can be stored in batteries for future use. When solar energy is insufficient, batteries and fuel cells operate simultaneously, reducing the strain on individual components and extending the overall lifespan of the batteries. The synergy between these elements results in a dynamic and optimized energy management approach. By leveraging the complementary strengths of PV panels, batteries, and fuel cells, these hybrid systems enhance reliability while promoting sustainability. This approach also addresses the limitations of single-source energy systems by mitigating power fluctuations and ensuring continuous energy supply, even in varying environmental conditions. Moreover, the integration of these technologies contributes to reducing the carbon footprint of energy production, aligning with global efforts to transition to cleaner and more resilient energy systems. The findings of this study highlight the potential of hybrid energy systems to revolutionize energy management practices, offering a viable solution for both residential and industrial applications. This comprehensive approach not only maximizes system longevity but also supports the development of a sustainable and efficient energy infrastructure for the future.

Keywords: photovoltaics system, fuel cells, battery storage, energy management.

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Authors: Talit Belhoul, Stefan Kornhuber, Klaus Dieter Haim, Sara Alouache, Chafiaa Serir, Zahra Mokrani, Radia Abdelli

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As part of our study, we explored the behavior of different types of high-voltage insulators, specifically those used in power transmission networks subjected to harsh environmental conditions. Insulators are essential components that ensure the safety and reliability of the network by preventing leakage currents and isolating power lines from supporting structures, even in environments frequently exposed to humidity, pollution, and extreme weather conditions. To thoroughly understand their performance, we conducted both practical and numerical tests. The practical tests were carried out at the high-voltage laboratory of the University of Bejaia, where we subjected the insulators to various voltage levels and observed their responses in terms of withstanding voltage and electrical discharges. In parallel, we used the COMSOL Multiphysics 6.1 simulation software to model the insulators and analyze the electric fields and potentials in the surrounding areas. This combined approach allowed us to obtain a comprehensive understanding of the insulators' performance. The test results with a wet silicone insulator showed that water droplets deformed in the direction of the electric field lines, leading to partial discharges. The withstand voltage was slightly influenced by the conductivity of the contamination, whether in the form of droplets on the silicone insulator or a layer on the glass cap-and-pin insulator. We observed that the presence of contamination reduced the insulating capacity, making it conductive. To enhance protection, a superhydrophobic coating was applied. The superhydrophobic layer plays a crucial role in maintaining a clean and dry surface on the insulator. Using COMSOL Multiphysics software to simulate the electric field and potential proved beneficial in understanding electrical phenomena such as field distribution and discharge arcs in high-voltage insulators. Our study highlighted a strong correlation between the experimental results and the numerical simulations in this specific field.

Keywords: high voltage insulator, water droplets, pollution, COMSOL multiphysics

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