A stochastic dynamic programming model for optimal use of local energy resources in a market environment
Résumé
The unbundling of power systems and the emergence of electricity markets favor the deployment of Distributed Generation in electricity networks. Microgrids are low-voltage distribution networks comprising micro-generation, storage devices and controllable loads that can operate interconnected or isolated from the main distribution grid as a controlled entity. This paper proposes a new method, based on stochastic optimization, to optimize the operation of a microgrid. This involves optimization of the production of the local micro-sources and storage and the exchange with the main distribution grid subject to market conditions. The results of the stochastic approach, and a comparison with a simpler deterministic one are presented using as case study a typical microgrid.
Mots clés
- Electric generators
- Micro grids
- Distribution grids
- Distributed generation
- Voltage distribution measurement
- Systems engineering
- Stochastic models
- Optimization
- Mathematical programming
- Energy resources
- Electric power systems
- Electric energy storage
- Distribution of goods
- Distributed parameter networks
- Data storage equipment
- Computer networks
