N. Chettibi scite author profile

N. Chettibi

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12Publications

105Citation Statements Received

75Citation Statements Given

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Affiliations

University of Jijel

Publications

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Adaptive Neural Network-Based Control of a Hybrid AC/DC Microgrid

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et al. 2016

IEEE Trans. Smart Grid

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-In this paper, the behavior of a grid-connected hybrid AC/DC Microgrid has been investigated. Different Renewable Energy Sources -photovoltaics modules and a wind turbine generator -have been considered together with a Solid Oxide Fuel Cell and a Battery Energy Storage System. The main contribute of this work is the design and the validation of an innovative online-trained artificial neural network based control system for a hybrid microgrid. Adaptive Neural Networks are used to track the Maximum Power Point of renewable energy generators and to control the power exchanged between the Front-End Converter and the electrical grid. Moreover, a fuzzy logic based Power Management System is proposed in order to minimize the energy purchased from the electrical grid. The operation of the hybrid microgrid has been tested in the Matlab/Simulink environment under different operating conditions. The obtained results demonstrate the effectiveness, the high robustness and the self-adaptation ability of the proposed control system. OWADAYS, the wide diffusion of distributed RES presents a new scenario for the regulation of distribution networks and the availability of new technologies for storage systems encourages their use in power systems [1]. In general, a hybrid AC/DC MG integrates different Distributed Generators (e.g. solar power sources, wind power generators, cogenerators, etc.), a energy storage system and a number of AC and DC loads. A FEC can interface the MG with the electric grid and can operate either in a grid-connected or islanded mode. The use of a PMS is crucial to optimize the power flow through the different components of the MG and the exchange of energy with the electric grid. Moreover, since the power produced by RESs depends on the climatic conditions, MPPT algorithms are needed in order to harvest the maximum available energy. The intermittent nature of RESs with the time-varying loads demand make the use of advanced control structures fundamental in order to make the operation of the MG reliable, economic, and secure under different operating conditions. The MG must also guarantee a high quality power supply to both local loads and electrical grid. Index TermsMany works have focused on hybrid microgrids and have proposed a number of control schemes for different mode of operations [2]- [8]. A multiagent-based energy management system to optimizes the economic operation of a MG is presented in [2]. A reactive power sharing algorithm in hierarchical droop control is developed in [3]. A novel coordinated voltage control scheme with islanding capability for a MG is proposed in [4]. adapt to uncertainties and they can be used also when the model of the system to be controlled is not available. Recently, the NNs with the learning capability are widely applied for the control of complex power systems. In [9], a back-propagation NN is applied for the real-time estimation of the wind speed. A novel discrete-time NN controller for the control of DC distribution system is designed in [10]. In [11], a...

Intelligent control strategy for a grid connected PV/SOFC/BESS energy generation system

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2018

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FPGA-based real time simulation and control of grid-connected photovoltaic systems

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2014

Simulation Modelling Practice and Theory

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Real-time prediction of grid voltage and frequency using artificial neural networks: An experimental validation

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et al. 2021

Sustainable Energy, Grids and Networks

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Fuzzy-based power control for distributed generators based on solid oxide fuel cells

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et al. 2015

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Fuel cells are promising clean energy generators and represent an attractive alternative technology for Distributed Generation applications. In this paper, a fuzzy based control strategy for a power conditioning unit interfacing a Solid Oxide Fuel Cell (SOFC) stack with the utility grid is proposed. A boost converter with a double cascade control loop stabilizes the DC link voltage and controls the SOFC output current. A decoupled power control strategy is adopted for the grid connected three-level inverter. Fuzzy Logic Controllers (FLCs) are used in order to regulate the active and reactive power delivered to the utility grid. The dynamic behavior of the SOFC is simulated in a MATLAB/Simulink environment. The obtained results demonstrate the effectiveness of the proposed control strategy

ANN‐based grid voltage and frequency forecaster

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et al. 2019

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FPGA-Based implementation of IncCond algorithm for photovoltaic applications

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2012

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Study on Control of Hybrid Photovoltaic-Wind Power System Using Xilinx System Generator

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2019

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