Publications similaires
Solar radiation forecasting using artificial neural network for local power reserve
RÉSUMÉ / ABSTRACT : Renewable energy sources have a variable nature and are depending on weather conditions. To satisfy the instantaneous balancing between electrical production and consumption, the operation of electrical networks requires a power reserve to compensate unforeseen imbalances. This one must be minimized in order to reduce the system cost while ensuring a satisfying security…
Real time supervision for a hybrid renewable power system emulator
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 of parameters are considered); capacity…
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
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 system. It aims to guarantee…
Multi-Objective design optimization of a hybrid PV-WIND-BATTERY SYSTEM
RÉSUMÉ / ABSTRACT : Stand alone hybrid renewable energy systems are more reliable than a system with a single source of energy. However, its design is a crucial issue. In this context, we propose a triple Multi-Objective design, minimizing, simultaneously, Life Cycle Cost (LCC), Embodied Energy (EE) and Loss of Power Supply Probability (LPSP). Optimization…
Life cycle cost, embodied energy and loss of power supply probability for the optimal design of hybrid power systems
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 cycle cost (LCC), embodied energy…
