期刊
APPLIED ENERGY
卷 230, 期 -, 页码 627-642出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.apenergy.2018.08.051
关键词
Model predictive control; Buildings-to-grid integration; Dynamic price; Distribution network; Residential buildings
资金
- National Science Foundation (NSF) under Empowering Smart Energy Communities: Connecting Buildings, People, and Power Grids [1637249]
Aggregated control of electrical loads in a large cluster of buildings has been a challenge due to the complexity of the system involving generators, grid constraints, load serving entities complex load models, and people behavior. This paper introduces a novel load aggregation method in an electricity distribution system with Model Predictive Controlled (MPC) loads. This method closes the control loop from power generation to people behavior, resulting in a more stable and efficient integrated buildings-to-grid system. A behavior-driven price-based MPC is introduced for a residential building energy management system, which controls the air conditioner (AC), electric vehicle (EV), water heater, and battery energy storage system. A nodal pricing method is introduced representing power generation and distribution costs, which is mathematically proven to stabilize the system with MPC controlled loads. The method is tested in a 342-node residential building distribution network with 15,000 buildings which is inverse sampled from hundreds of actual smart meter data. The results show a 21% reduction in generation cost, 17% reduction in peak load, and reduced nodal voltage drop from the coordinated control system.
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