Moussa O, Abdessemed R, Benaggoune S, Benguesmia H.
European Journal of Electrical Engineering. European Journal of Electrical EngineeringEuropean Journal of Electrical Engineering. 2019;21 :421-430.
Cucumo MA, Mele M, Nicoletti F, Galloro A, Perrone D, Greco N, Mutani G, Todeschi V, Sepehrianazar F, Hassanzadeh R.
Evaluation of Crude Oil Fouling Formation in a Heat Exchanger with Twisted Tape Inserts. Journal homepage: http://iieta. org/journals/ijhtJournal homepage: http://iieta. org/Journals/IJHT. 2019;37 :927-935.
Chaima MOUFFOUK, soumia MOUFFOUK, Leila H, Hamada H, Mouffouk S.
Evaluation of cytotoxic Effect, anticholinesterase, antioxidant, antiarthritic and antibacterial activities of the Algerian species Scabiosa stellata L. The Eurasia Proceedings of Science Technology Engineering and MathematicsThe Eurasia Proceedings of Science Technology Engineering and Mathematics. 2019;8 :1-11.
Khanfer S, Fouad DJAIZ, Bachir L.
Evolution tectono-sédimentaire du bassin néogène de Batna-Ain Touta, limite Aurès-Monts de Belezma. Premier Colloque sur la géologie des Bassins Sédimentaires Maghrébins FSTGAT-USTHB 01 au 03-10-. 2019.
Hichem F, Fayçal DJEFFAL.
Exceeding 30% efficiency for an environment-friendly tandem solar cell based on earth-abundant Se/CZTS materials, ISSN / e-ISSN 1386-9477 / 1873-1759. Physica E: Low-dimensional Systems and NanostructuresPhysica E: Low-dimensional Systems and Nanostructures. 2019;Volume 109 :pp 52-58.
AbstractIn this paper, a new Se/CZTSSe tandem solar cell architecture is proposed as a viable approach to reach ultrahigh efficiency values at low fabrication cost. The proposed tandem design consists of a Se-based top cell with Ti intermediate ultra-thin metallic layers (MLs) and a CZTS bottom cell with graded band-gap aspect. The role of the introduced design amendments in achieving the dual-benefit of enhanced optical behavior and reduced recombination losses is investigated by means of an accurate numerical modeling. Moreover, a comprehensive study which involves the impact of design parameters such as the MLs position and the CZTSSe band-gap profile on the device performance is carried out. Moreover, Particle Swarm Optimization (PSO)-based metaheuristic technique is used to boost up the Se/CZTSSe tandem cell efficiency by identifying both the suitable position of the introduced ultrathin MLs and the appropriate CZTSSe band-gap profile. It is found that the adopted optimization approach pinpoints a new path toward achieving over 30% efficiency, not only it provides the possibility to reduce interface recombination effects by optimizing the band offset at the buffer/absorber interfaces but also enables selecting the most favorable design configuration associated with enhanced optical behavior. This makes the optimized Se/CZTSSe tandem solar cell potential alternative for providing high-efficiency and stable tandem solar cell.
Keskes S, Sallem S, Bouchiba N, Kammoun MBA, CHRIFI-ALAOUI L, Drid S.
Experimental Analysis for enhancement of unbalanced standalone Wind Energy Conversion System. 2019 16th International Multi-Conference on Systems, Signals & Devices (SSD). 2019 :322-327.
Mansouri T, Abbeche K.
Experimental bearing capacity of eccentrically loaded foundation near a slope. Studia Geotechnica et MechanicaStudia Geotechnica et Mechanica. 2019;41 :33-41.
Yettou F, Gama A, Azoui B, Malek A, Panwar NL.
Experimental investigation and thermal modelling of box and parabolic type solar cookers for temperature mapping. Journal of Thermal Analysis and Calorimetry. An International Forum for Thermal Studies, J Therm Anal Calorim (2019)Journal of Thermal Analysis and Calorimetry. An International Forum for Thermal Studies, J Therm Anal Calorim (2019). 2019;136 :1347-1364.
AbstractThis investigation examines mathematical modelling and experimental validation of two types of solar cookers: a box type with tilted intercept area equipped with one external reflector, and a parabolic cooker with a new configuration. Experiments were carried out with the cookers filled with two kilograms of water from 08:00 to 15:00 solar time. During the experiments, temperature gain in the box-type solar cooker was recorded at about 69.8 °C and in the parabolic-type solar cooker at 73.6 °C at the stagnation point. Direct normal irradiation in three distinct study areas was observed and found that it varied from 7.6 to 10 kWh m-$². Cooking pot placed in parabolic cooker was varied between 130 and 132 °C. Centre and south-east regions of study areas where global irradiation varied from 8 to 8.4 kWh m-$² were found suitable for box-type solar cooker and cooking pot temperature were found in the range of 100 °C to 105 °C. Mathematical modelling was programmed in MATLAB. The theoretical results were consistent with experiential data for both types of solar cookers. The effectiveness of the two cooker types can be deduced from the maps. It is found the use of the cookers in Northern and Southern regions of the country was not identical. Their suitability for cooking depends on the amount of solar radiations received.
Abdessemed A, Boubekeur I, Boublai N, Bougriou C.
Experimental investigation of a poly-energy multi-effect still in Algeria. Water SupplyWater Supply. 2019;19 :926-931.
Boufarh R, Abbeche K, Abdi A.
Experimental investigation of interference between adjacent footings on layered cohesionless soil. Soil Mechanics and Foundation EngineeringSoil Mechanics and Foundation Engineering. 2019;56 :128-135.
Ghouari A, Chaâbane H, Chaghi A, M.Chahdi.
An Experimental Study on the Smart Home Concept with PV and Energy Management and Control Strategy Using an Open Source Platform. Distributed Generation & Alternative Energy JournalDistributed Generation & Alternative Energy Journal. 2019;34 N 1 :61-80.
AbstractThe smart grid system is key to the new electrical network infrastructure. It takes into account the use of the new information and communication technologies (ITC) and the integration of the renewable energy power generation (photovoltaics PV, concentrated solar power CSP, wind, etc). The smart grid promises better management and control of energy sources. The application of the smart grid, especially, in Algeria allows the optimal control of the electricity demand since the latter keeps rising continuously. The use of smart grid allows the rationalization of the electricity consumption in smart homes through appliance automated control. Input energy savings result in the reduction of c emission. Herein, we present a new energy management strategy tested in an experimental smart home (SM). The implemented management approach was made possible by using a new electronic system that allowed the control of all appliances via the internet network. For this purpose, a dynamic monitoring web interface was developed under an open source platform in order to process the whole data delivered by the system. The final output of the system which consists of a balance between all types of energy involved, including CO2 gas emission, is displayed. It is only then that the user can take adequate decision and establish the priorities for rational use of the energy available.
Djelloul I, Sari Z, dit Sidibe IB.
Fault diagnosis based on the quality effect of learning algorithm for manufacturing systems. Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control EngineeringProceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering. 2019;233 :801-814.
Djelloul I, Sari Z, Souier M.
Fault isolation in manufacturing systems based on learning algorithm and fuzzy rule selection. Neural Computing and ApplicationsNeural Computing and Applications. 2019;31 :3211-3225.