Development of a tool for urban microgrid optimal energy planning and management Xingyu YAN, Dhaker ABBES, Bruno FRANCOIS Simulation Modelling Practice and Theory Volume 89, December 2018, Pages 64-81 DOI: https://doi.org/10.1016/j.simpat.2018.09.006  Highlights: • PV power and load uncertainties are analyzed. • Artificial neural networks are applied for PV power and load …

Classical vector, first-order sliding-mode and high-order sliding-mode control for a grid-connected variable-speed wind energy conversion system: A comparative study Youssef Krim, Dhaker Abbes, Saber Krim,  Mohamed Faouzi Mimouni Wind Engineering, SAGE Journal https://doi.org/10.1177/0309524X17723202 RÉSUMÉ / ABSTRACT : This article proposes a comparative study between different control strategies of a wind energy conversion …

Uncertainty analysis for day ahead power reserve quantification in an urban microgrid including PV generators Xingyu Yan, Dhaker Abbes, Bruno Francois  Renewable Energy, Volume 106, June 2017, Pages 288-297 https://doi.org/10.1016/j.renene.2017.01.022 RÉSUMÉ / ABSTRACT : Setting an adequate operating power reserve (PR) to compensate unpredictable imbalances between generation and consumption is essential for power system security. Operating power …

Multi-criteria fuzzy-logic optimized supervision for hybrid railway power substations Petronela Pankovits, DhakerAbbes, Christophe Saudemont, Stephane Brisse, Julien Pouget,Benoit Robyns, Mathematics and Computers in Simulation, Volume 130, December 2016, Pages 236-250  https://doi.org/10.1016/j.matcom.2016.05.002   RÉSUMÉ / ABSTRACT : Renewable energy sources and storage units’ integration in the railway power substations is an alternative solution to handle the energy consumption, due to railway traffic increase …

RÉSUMÉ / ABSTRACT : In this study, a newapproach to design an autonomous hybrid wind–photovoltaic (PV)-batteries system is presented in order to assist the designers to take into consideration both the economic and ecological aspects. Primary embodied energy (EE) has been introduced as a new criterion for hybrid systems, designing …

RÉSUMÉ / ABSTRACT : Generally, battery lifespan depends on the number of cycles and depth of discharge (DOD). Nevertheless, in a renewable hybrid power system, charge and discharge cycles are random and not regular. Therefore, it is important to develop an aging model suitable to this case. Thus, in this …

RÉSUMÉ / ABSTRACT : In this paper, new robust fuzzy scheduler fault tolerant control is proposed to tackle multivariable nonlinear systems subject to sensor faults, actuator faults and parameter uncertainties. Takagi–Sugeno fuzzy model is employed to represent the nonlinear wind energy systems, and then a model-based fuzzy scheduler controller design use …

RÉSUMÉ : Dans ce papier, nous présentons l’étude d’un système hybride éolien photovoltaïque avec stockage pour un habitat résidentiel de 4 personnes à La Rochelle en France. Cette étude comprend le dimensionnement du système, l’évaluation de ses performances ainsi que l’analyse économique et environnementale de son cycle de vie. Les …

RÉSUMÉ / ABSTRACT : This paper is focused on the design and the implementation of a hybrid PV-wind power system with batteries. It aims to emulate the behavior of a hybrid power system in order to face load consumption variations. Final system includes relevant contributions such as quality of emulator (a large number …

RÉSUMÉ / ABSTRACT : Stand-alone hybrid renewable energy systems are more reliable than one-energy source systems. However, their design is crucial.For this reason, a new methodology with the aim to design an autonomous hybrid PV-wind-battery system is proposed here. Based on a triple multi-objective optimization (MOP), this methodology combines life …