Title :
Distributed MPC Applied to a Network of Households With Micro-CHP and Heat Storage
Author :
Larsen, Gunn K. H. ; van Foreest, Nicky D. ; Scherpen, Jacquelien M. A.
Author_Institution :
Fac. of Math. & Natural Sci., Univ. of Groningen, Groningen, Netherlands
Abstract :
This paper considers heat and power production from micro Combined Heat and Power systems and heat storage in a network of households. The goal is to balance the local heat demand and supply in combination with balancing the power supply and demand in the network. The on-off decisions of the local generators are done completely distributed based on local information and information exchange with a few neighbors in the network. This is achieved by using an information sharing model with a distributed model predictive control method based on dual-decomposition and sub-gradient iterations. Because of the binary nature of the decisions, a mixed integer quadratic problem is solved at each agent. The approach is tested with simulation, using realistic heat and power demand patterns. We conclude that the distributed control approach is suitable for embedding the distributed generation at a household level.
Keywords :
cogeneration; distributed control; distributed power generation; iterative methods; power generation control; predictive control; thermal energy storage; distributed MPC; distributed generation; distributed model predictive control method; dual-decomposition iterations; heat storage; household network; information exchange; information sharing model; local heat demand; local information; micro-CHP; microcombined heat and power systems; mixed integer quadratic problem; power supply and demand balancing; subgradient iterations; Cogeneration; Furnaces; Power demand; Production; Resistance heating; Water heating; Distributed generation; distributed model predictive control; smart energy management;
Journal_Title :
Smart Grid, IEEE Transactions on
DOI :
10.1109/TSG.2014.2318901
