Outline
- I. Introduction
- II. Hes Distributed Energy Management by Mas
- III. Results and Discussion
- IV. Conclusion
رئوس مطالب
- چکیده
- کلیدواژه ها
- 1. مقدمه
- 2. مدیریت توزیع انرژی در سیستم HES توسط روش MAS
- 3. نتایج و بحث
- 4. نتیجه گیری
- منابع
Abstract
The renewable energy resources production is entirely correlated to the fluctuant climate conditions and does not depend on the load requirement, therefore they behave as passive generators. The power electronics play a significant role to overcome these constraints. A DC coupled wind/pv/hydrogen/battery hybrid energy system is studied to show the role of power electronics in building actives RES generators. A distributed energy management is proposed to deal with the simultaneous operations of different hybrid system components. Furthermore, this paper proposes a self-adaptive DC-DC converters control by multi agent system. The simulation results are given by Matlab Simulink. The distributed control using multi agent system is performed by developing agent under Jade platform. While the communication middleware between Jade and Simulink is carried out by MacsimJX. Finally, the performance of the proposed control has been justified.
Conclusions
This paper has shown the significant role that plays the power electronics in the RES development and intensive integration. It is shown how the power electronics can turns the RES from passive to active generators and therefore they will no more follow the meteorological conditions and depend on the load demand in a HES thanks to the storage system and DG following an energy flow control. A hybrid storage system was presented in this paper, an electrochemical storage system is introduced by the battery and hydrogen storage is given by the FC-electrolyser conversion. A DC bus voltage distributed control was proposed in this paper to overcome the limitations of existing methods which depends on master-slave control method. Furthermore, a distributed control by MAS was studied in this paper and therefore a self-adaptive power electronic control is introduced. Finally a framework for cosimulation Matlab/Simulink and JADE was also proposed which has facilitated the implementation of the system, and enabled the physical HES modeling in Simulink and control agents are programmed in JADE.