Cahier des transitions

Étiquette : Loss of Power Supply Probability

  • Multi-Objective design optimization of a hybrid PV-Wind-Battery system

    Multi-Objective design optimization of a hybrid PV-Wind-Battery system

    Plan :

    • Introduction
    • Data sources and load profile
    • Hybrid system models hybrid
    • Multi-objective optimization procedure
    • Results and discussion
    • Conclusions and Perspectives




  • Multi-Objective design optimization of a hybrid PV-WIND-BATTERY SYSTEM

    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 has been insured by a dynamic model of the system under Matlab/Simulink and using a controlled elitist genetic algorithm. Results indicate that proposed method, through its multitude Pareto front solutions, will help designers to take into consideration environmental impact of such systems.