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Hydropower Production Optimization from Inflow: Case Study of Songloulou Hydroplant
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作者 Daniel Eutyche Mbadjoun Wapet Salomé Ndjakomo Essiane +1 位作者 rené wamkeue Patrick Juvet Gnetchejo 《Journal of Power and Energy Engineering》 2020年第8期37-52,共16页
The model of nonlinear power generation function is developed to generate optimal operational policies for Songloulou inflow in Cameroon and test these policies in real time conditions. Our model is used to adjust ope... The model of nonlinear power generation function is developed to generate optimal operational policies for Songloulou inflow in Cameroon and test these policies in real time conditions. Our model is used to adjust operational regimes for the Songloulou reservoir under varying flows (turbined and deversed) using a dynamic program. A more interesting approach, proposed in this article, consists of combining both the principle of decomposition by resources (or quantities) and the technique of dynamic programming. Dynamic programming is an appropriating optimization algorithm that is used for complex non-linear inflow operational policies and strategies. In this case study, our optimization model is used and confirmed maximizing large scale of hydropower in a period of time step by the integration of several. The high non linearity of our study object is the first stage of difficulty which brought us to combined least squared and Time Varying Acceleration Coefficients <span style="font-family:Verdana;">Particle Swarm (TVACPSO) to obtain appropriate production function</span><span style="font-family:Verdana;"> which </span><span style="font-family:Verdana;">generated optimal operational policies for the Songloulou hydropower i</span><span style="font-family:Verdana;">n sub-Saharan region and after we tested it in the company policies operational at real time conditions. The model could be successfully applied to other hydropower dams in the region.</span> 展开更多
关键词 HYDROPOWER RESERVOIR OPTIMIZATION SIMULATION Dynamic Programming
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Enhanced Vibrating Particles System Algorithm for Parameters Estimation of Photovoltaic System 被引量:1
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作者 Patrick Juvet Gnetchejo Salomé Ndjakomo Essiane +3 位作者 Pierre Ele rené wamkeue Daniel Mbadjoun Wapet Steve Perabi Ngoffe 《Journal of Power and Energy Engineering》 2019年第8期1-26,共26页
To evaluate the performance of a photovoltaic panel, several parameters must be extracted from the photovoltaic. These parameters are very important for the evaluation, monitoring and optimization of photovoltaic. Amo... To evaluate the performance of a photovoltaic panel, several parameters must be extracted from the photovoltaic. These parameters are very important for the evaluation, monitoring and optimization of photovoltaic. Among the methods developed to extract photovoltaic parameters from current-voltage (I-V) characteristic curve, metaheuristic algorithms are the most used nowadays. A new metaheuristic algorithm namely enhanced vibrating particles system algorithm is presented here to extract the best values of parameters of a photovoltaic cell. Five recent algorithms (grey wolf optimization (GWO), moth-flame optimization algorithm (MFOA), multi-verse optimizer (MVO), whale optimization algorithm (WAO), salp swarm-inspired algorithm (SSA)) are also implemented on the same computer. Enhanced vibrating particles system is inspired by the free vibration of the single degree of freedom systems with viscous damping. To extract the photovoltaic parameters using enhanced vibrating particles system algorithm, the problem can be set as an optimization problem with the objective to minimize the difference between measured and estimated current. Four case studies have been implemented here. The results and comparison with other methods exhibit high accuracy and validity of the proposed enhanced vibrating particles system algorithm to extract parameters of a photovoltaic cell and module. 展开更多
关键词 PV CELL Modeling Vibrating PARTICLES System PARAMETER Estimation Single/Double DIODE Model
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