JFAS_Vol 02 N 01

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    Study On The Energetic Parameters In A Photothermic Sensor With Black Polymeric Film
    (University of Eloued جامعة الوادي, 2010-01-01) Benmoussat, A.; Baba Ahmed, N.; Ainad Tabet, S.; Belahcene, B.
    Renewable energies such as thermal solar energy are accessible energy hydrous for desalination water, recycling and hot water production. Heat is produced by greenhouse effect in the sensor. It is no polluting form of energy according to the sustainable development. In this paper the design of sensor photothermic prototype with polymeric film absorbing, the materials radiation properties, the analysis of different energy losses in the system and the energy balance will be presented. The evolution of incidental solar illumination on the horizontal plan of sensor and the temperature distribution are studied. Results showed that the temperature obtained by thermal conversion depends on the absorbing characteristics of the polymeric film, radiation intensity and time exposure
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    Experimental Measurement, Analysis And Modelling Of Dependency Emissivity In Function Of Temperature
    (University of Eloued جامعة الوادي, 2010-01-01) Baba Ahmed, N.; Benmoussat, A.; Benouaz, T.
    We propose a direct method of measurement of the total emissivity of opaque samples on a range of temperature around the ambient one. The method rests on the modulation of the temperature of the sample and the infra-red signal processing resulting from the surface of the sample we model the total emissivity obtained in experiments according to the temperature to establish linear correlations. This leads us to apply the method of optimal linearization associated the finite element method with the nonlinear problem of transfer of heat if thermal conductivity, the specific heat and the emissivity of studied material depend on the temperature. We obtain a good agreement between the resolution of the nonlinear equation of heat and the results obtained by the experimentation.
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    Effect Of Climatic Factor On The Mechanical Behaviour Of Aeolian Blades: Application Of Hybrid Composite Materials
    (University of Eloued جامعة الوادي, 2010-01-01) Mili, F.; Lekrine, A.; Bouyaya, L.; Bourouis, F.
    The great interest which the wind power brings in the development of the various economic sectors encourages to contribute in the improvement of the hydrothermal and mechanical performances of the blades of wind rotors with horizontal axis. The use of composite materials involves a profit of substantial weight, strength to the directional constraints that the blade will undergo during its work and a reduction of the aerodynamic and mechanical losses. The adoption of composite materials with unidirectional reinforcement carbon/epoxy makes it possible to get for the structure a high wear resistance and a reduction of the phenomenon of bearing pressure created around the airfoil of the blade moving relative compared to the speed of the wind. The evaluation of the behavior of such composites with [+θ/- θ]4S stacking sequence, with the combined effect of the temperature, the moisture and the tensile effort constitutes the principal axis of this contribution. In order to minimize the costs, our analysis will direct towards hybrid composite materials glass-carbon/epoxy being presented in the form of symmetrical laminates [+/0°]2S and antisymmetric [+/0°/90°/-]. The results obtained showed that their use contributes to the improvement of their thermomechanical behavior by involving profits of performance, weight, cost savings and energy.
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    Eco-casting Of Aeolian Blades And Solar Panels With Composites Materials Via Rtm Technology
    (University of Eloued جامعة الوادي, 2010-01-01) Attaf, B.
    The technique used for manufacturing composite wind turbine blades and solar panels must be sure of environment-friendly. In order to achieve this objective, the closed mould manufacturing process that takes into account environment preservation and health protection besides assurance quality will be the subject of this article. The requirements of sustainable development and ecodesign are the objectives to be fulfilled with an acceptable degree of tolerance in relation to the new regulations and eco-standards.
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    Optimal Management For Waters For The Production Of Electrical Energy
    (University of Eloued جامعة الوادي, 2010-01-01) Bensalem, A.; Oudai, A.; El-maouhab, A.; Bouhentala, A.
    The hydropower management along a short-term planning horizon is a determinist problem, which consists in determining the amount of water to be discharged from each reservoir of the system over the defined planning horizon so that to meet the hourly load demand assigned previously. The prime objective here is to perform the operating policy with the lowest use of water; which is achieved by avoiding spilling and by maximizing the hydroelectric generation, besides satisfying all operating constraints. The maximization of electrical power production is achieved by maximizing the heads. Consequently, this allows maximizing the reservoirs content. To solve to the deterministic hydropower management problem, we use the discrete maximum principle. While solving the equations relating to the discrete maximum principle, we use the gradient method. However, to treat equality constraints we use Lagrange’s multiplier method. To treat the inequalities constraints we use the augmented Lagrangian method. The developed algorithm gives a satisfactory solution for the problem and turns out to be very efficient.
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    Particle Swarm Optimization Based Of The Maximum Photovoltaic Power Tractioqg Under Different Conditions
    (University of Eloued جامعة الوادي, 2010-01-01) Labbi, Y.; Ben Attous, D.; Sarhoud, H.
    Photovoltaic electricity is seen as an important source of renewable energy. The photovoltaic array is an unstable source of power since the peak power point depends on the temperature and the irradiation level. A maximum peak power point tracking is then necessary for maximum efficiency. In this work, a Particle Swarm Optimization (PSO) is proposed for maximum power point tracker for photovoltaic panel, are used to generate the optimal MPP, such that solar panel maximum power is generated under different operating conditions. A photovoltaic system including a solar panel and PSO MPP tracker is modelled and simulated, it has been has been carried out which has shown the effectiveness of PSO to draw much energy and fast response against change in working conditions.
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    Optimization Methodologies Of Mixed Electrical Generators In Algeria Based On Renewable Application To Telecommunications Systems
    (University of Eloued جامعة الوادي, 2010-01-01) Zeraia, H.; Malek, A.; Larbes, C.
    This article deals of the optimization of renewable energy electric generators, for the alimentation of radio telecommunication systems. The principals’ interests of this system are the independence production, and the supplying of electric energy in isolated localities. Have at one’s the energetic and economic models, and simulation tools, we effected an optimization study based on mixed productions. For this approach, the energetic resources of sites where are implanted telecommunications systems and their consumption are supposed known. Then the problem is the optimization of electric generators using these resources, enable to have an optimal type system for the powering of telecommunications equipments in rural site of Algeria. Next it is quite possible to command these optimized generators by a control circuit. This circuit make possible to have according to availability of resources, one of mixed systems found, then telecommunications system be always supplied in any possible case, and without any shortage.
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    Feasibility Study And Optimization Of An Hybrid System (eolian- Photovoltaic - Diesel) With Provision Of Electric Energy Completely Independent
    (University of Eloued جامعة الوادي, 2010-01-01) Saheb-koussa, D.; Haddadi, M.; Belhamel, M.
    In engineering, simulation is an effective and economical, commonly used to make preliminary or comparative studies, both during development (design) and normal operation of systems. Currently, several simulation tools, using HOMER, are used in academia. Thus, in this work, we present the principle of feasibility study and optimization of a stand alone hybrid system (wind-photovoltaic-diesel). Furthermore, we determined the price per kWh of electricity supplied by the stand alone hybrid system, which amounts to $ 1417 / kWh. The site considered in this study represents the Adrar site located in the south west Algeria. Thus, we have inferred from this work as part of a configuration of the stand alone hybrid system obviously depends on available energy resources and constraints. On the other hand we have highlighted the role of the renewable energy uses in reducing emissions of greenhouse gas (CO2 rate = 16086 kg / year for a system using only the generator diesel and is 599 kg / year for the stand alone hybrid system studied).
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    Simulation Of New Simple Fuzzy Logic Maximum Power Point Tracker For Photovoltaic Array
    (University of Eloued جامعة الوادي, 2010-01-01) Serhoud H. . Benattous D. . Labbi Y.
    A new simple fuzzy method used for tracking the maximum power point tracker (MPPT) for photovoltaic systems is proposed. The input parameters and duty cycle D are used to generate the optimal MPPT under different operating conditions, The photovoltaic system simulated and constructed by photovoltaic arrays, a DC/DC boost converter, a fuzzy MPPT control and a resistive load, The Fuzzy control law designed and the results in a simulation platform will be presented and compare to Perturbation and observation (P&O) controller.
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    The Simple Mono-canal Algorithm For The Temperature Estimating Of The Surface From Images Of Infrared Thermal Canal Of Meteosat
    (University of Eloued جامعة الوادي, 2010-01-01) Labbi, A.; Mokhnache, A.
    The knowledge of the surface temperature is strongly required in several applications, for instance in agrometeorology, climatology and environmental studies. In this study we have developed an algorithm mono-canal to estimate land surface temperature (Ts) in spectral band as the infrared channel (IR) of METEOSAT-7. This algorithm permits us to join by a relationship of second order the surface temperature to the brightness temperature (Tb) at the sensor level. This algorithm is obtained starting from the radiative transfer equation and requires the knowledge of atmospheric transmittance (), the surface emissivity () and the effective mean atmospheric temperature (Ta). The results obtained were validated by using the LOWTRAN-7 radiative transfer code. For a values of atmospheric water content (W) lower or equal to 3.1 g/cm2 and for values of emissivity equal or higher than 0.98, we had found that the maximum difference between the land surface temperature estimated and simulated by LOWTRAN-7 does not exceed 2°C.
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    Effect Of The Space Between Two Glasses On The Solar Sensor Performance Of Plan In Double-glazed Collector
    (University of Eloued جامعة الوادي, 2010-01-01) Ben Guehza, M. L.; Kaabi, A.
    The work presented in this paper is a contribution to the theoretical study of the impact of space between the protective glass and the glass through the performance of a solar plan double glazing. Under the climatic conditions in the region of Ouargla Algeria. The study was carried out using a mathematical model obtained by writing the laws of conservation of energy in the system. Type of day June 15, 2008 at Ouargla. To simplify the system of equations of energy, we use the finite difference method with an implicit scheme. The algebraic system obtained and solved by the iterative Gauss Seidel, the program is inscribe FORTRAN. We also took into account the variation of the angle of incidence and refraction of solar radiation in terms of time and its influence on the coefficients of transmission, reflection and absorption.
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    Study And Realization Of Device Of Solar Sensitive Tracking For A Prototype Of Cylindro-parabolic Concentrator
    (University of Eloued جامعة الوادي, 2010-01-01) Gama, A.; Larbes, C.; Malek, A.; Yettou, F.
    After the realization of a new prototype of concentrator through, we have study the realization of a sun tracking system in order to assure the best system efficiency throughout the day. We started in the first step by the blind sun tracking where we have acquired the good results. In this paper we try to speak about the realization of a new system of sun tracking who is the sensitive sun tracking. In this sort of tracking we have used a special telescope, like a sensitive element in for the detection of sun position. An electronic Card based PIC microcontroller is realized to pilot the mechanic system of the san tracking. In order to controlled the prototype we have put on a chain of data acquisition. The results were compared with the results of the blind sun tracking system and the stationary position, it was noted that the results were better this time and the efficiency is very important.
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    Experimental Study And Development Of A Water Basin Used As Solar Sensor
    (University of Eloued جامعة الوادي, 2010-01-01) Laouini, S. E.; Ben Haoua, B.; Ouahrani, M. R
    Energy sources play an important role in the development of humanity, with the industrial and technological evolution of our century. Energy demand is increasing every year, for this reason we must seek an alternate source of energy more specifically new and renewable energy including solar energy. Note that solar energy is abundant, especially the south-eastern Algeria, where solar radiation is significant in any year. Given that it is the cheapest of all other energy, many researches and experiments have been conducted to recover the maximum amount of renewable energy and to address the problems of use and operation to reduce and save energy traditional. This work concerns the development of a new device is a basin filled with water used as a solar plane and a storage medium. The results obtained are very important in terms of heating water, the water temperature at outlet of basin reaches up to 74 ° C, also the inlet temperature is 29 ° C.
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    The Use Of Solar Energy In The Desalination Sea Water In Agricultural Greenhouse
    (2010-01-01) Tahri, T.; Bettahar, A.; Douani, M.; Al Sulaiman Abdul-wahab, S.; Al-hinai, H.; Al Mulla, Y.
    The limited resources of fresh water in arid areas like the Middle East and North Africa MENA have led to the use of poor quality water in irrigation agriculture. These can reduce crop yield and environmental damage. Agriculture accounts for 70% of overall consumption in freshwater. Given the evaporation phenomena that occur in arid regions, this figure rises to 90%. This study focuses on the concept of combining the greenhouse with the desalination of seawater This concept is intended for small scale applications in remote areas where only saline water and solar energy are available. The main objective of this research work is to analyze the production of fresh water using solar energy in the desalination of sea water in the greenhouse. This operating system is in need of thorough study of evaporators, condensers and design of the greenhouse. Desalination, combining the greenhouse to the use of sea water while exploiting the phenomenon of condensation of water vapor in the air, seems to respond positively to the needs of agricultural irrigation
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    Optimization Of Aeolian Energy Conversion Optimisation De La Conversion De L’energie Eolienne
    (University of Eloued جامعة الوادي, 2010-01-01) Soufi, Y.; Bahi, T.; Harkat, M. F.; Mohamedi, M.
    The use of renewable energy increases, because people are increasingly concerned with environmental issues. Among renewable, wind power is now widely used. Their study showed that a value of wind speed, there is a maximum mechanical power supplied by the turbine. So, power is supplied are particularly changes with maximum speed. However, the objective of this paper is to present an algorithm for optimal conversion of wind energy based on a criterion optimization that must maintain specific speed of the turbine at optimum speed which corresponds to the maximum power provided by the steady wind turbine. To this end, the object is to preserve the position of any static operating point on the characteristic of optimal. To validate the model and algorithm for optimal conversion of wind energy, a series of numerical simulations carried out using the software MatLab Simulink will be presented is discussed.
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    Experimental Study Of The Production Of Solar Hydrogen In Algeria
    (University of Eloued جامعة الوادي, 2010-01-01) Bendaikha, W.; Larbi, S.; Mahmah, B.; Belhamel, M.
    Hydrogen is a sustainable fuel option and one of the potential solutions for the current energy and environmental problems. In this study hydrogen is produced using a hydrogen generator with a Proton Exchange Membrane (PEM) electrolyser. An experimental study is done in the Center of Development of the Renewable Energy, Algiers, Algeria. The experimental device contains essentially a photovoltaic module, a PEM electrolyser, a gasometer and the devices of measures of characteristics of the PEM electrolyser as well as two pyranometers for the horizontal and diffuse global radiance registration. This system in pilots scale is permitted on the one hand, to measured and analyzed the characteristics: of the PEM electrolyser for two different pressures of working (Patm and P=3 bar), on the other hand, to study the volume of hydrogen produces in the time with different sources of electrical power (generator, photovoltaic module, fluorescent lamp), the efficiency for every case is calculated and compared. We present in this paper the variation of the solar hydrogen flow rate produced according to the global radiance and according to the time for a typical day’s of August